Public Library of Science : Sensitive testing reveals drug-resistant HIV with possible consequences for treatment

Drug-resistant HIV at levels too low to be detected by standard tests is not unusual and may contribute to treatment failure, according to research published in PLoS Medicine.

Mutations in the AIDS virus commonly occur during treatment, especially if HIV drugs are not taken consistently, and may cause treatments to fail. HIV treatment in developed countries normally includes testing for these mutations, both to select first-line drugs for a given patient and to choose second-line drugs if the virus rebounds from initial treatment. However, tests used by clinical laboratories cannot reliably detect mutant viruses that make up less than about 20% of the virus in a patient's blood.

To investigate the role of resistant virus present at lower levels, Jeffrey Johnson of the Division of HIV/AIDS Prevention Laboratory in the National Center for HIV, STD, and TB Prevention at the US Centers for Disease Control and Prevention and colleagues studied HIV from more than 500 recently infected patients in Canada and the US. Although these individuals had not received anti-HIV drugs, a highly sensitive test developed by the researchers showed that more than 10% carried HIV with common drug-resistance mutations that were not detected using usual tests.

The researchers then studied 316 samples from a separate study of about 1400 patients who were started on their first HIV treatment, which included the drug efavirenz. Before starting treatment, none of these patients had resistance to efavirenz according to standard tests. However, highly sensitive testing showed that 7 of the 95 patients who experienced treatment failure had low levels of HIV with resistance mutations to efavirenz prior to treatment. Of 211 patients whose treatment did not fail, only 2 showed low level resistance prior to treatment.

These data suggest that sensitive testing for resistance could avert failures in HIV treatment. However, given the small number of cases in this initial study, larger studies are needed to confirm the results.

In an accompanying Perspective, Steven Deeks of the University of California San Francisco, who was uninvolved with the research, discusses "whether assays for the detection of low level variants can or even should be developed for patient management." He notes that although "a sizable proportion of treatment naïve HIV infected individuals harbor a minority population of drug-resistant HIV," many patients with positive results on highly sensitive resistance testing might not go on to experience treatment failure.

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Citation: Johnson JA, Li J-F, Wei X, Lipscomb J, Irlbeck D, et al. (2008) Minority HIV-1 drug resistance mutations are present in antiretroviral treatment-naïve populations and associate with reduced treatment efficacy. PLoS Med 5(7): e158. doi:10.1371/journal.pmed.0050158

University of Alabama at Birmingham: Anti-HIV Therapy Boosts Life Expectancy

• Improvements due to modern antiretroviral cocktails

• Study underscores HIV testing, treatment needs

BIRMINGHAM, Ala. - The life expectancy for patients with human immunodeficiency virus (HIV) has increased by more than 13 years since the late 1990s thanks to advancements in antiretroviral therapy, according to researchers at the University of Alabama at Birmingham (UAB) and Simon Fraser University in Vancouver, British Columbia.

Improved survival has led to a nearly 40 percent drop in AIDS deaths among 43,355 HIV-positive study participants in Europe and North America, bolstering the call for improved anti-HIV efforts worldwide, the study authors said.

The study is published in the British medical journal The Lancet. It was compiled by The Antiretroviral Therapy Cohort Collaboration, which includes UAB, Simon Fraser University and more than a dozen other research sites around the world.

COCKTAIL OF DRUGS

The authors looked at changes in life expectancy and mortality among the 43,355 HIV patients taking a cocktail of drugs called combination antiretroviral therapy (cART). Data was compiled from a total of 14 studies in Europe and North America.

"Since their introduction in 1996 cART regimens have become more effective, better tolerated and easier to follow," said Michael Mugavero, M.D., an assistant professor in UAB's Division of Infectious Diseases and a co-author on the study.

"We are now seeing the benefits of years of research, hard work and efforts to make these medications widely available. This has led to dramatic improvements in life expectancy, but patients who start cART with more advanced HIV infection do not have the same level of benefit," Mugavero said.

The new Lancet study found cART yielded a 13.8-year life-expectancy increase - from 36.1 years in study participants who began therapy during the 1996-1999 period to 49.9 years in participants who began therapy during the 2003-2005 period.

Despite the good results, the study found life expectancy for HIV patients is far lower on average than the general population, which includes all those with other chronic illnesses. For example, an HIV-positive patient starting cART at age 20 will live to 63, about 20 years shorter than the average life span of non-infected adults.

With nearly half of all patients diagnosed with advanced HIV infection, the life expectancy benefits of cART are not fully realized, said Mugavero and lead study author Robert Hogg, Ph.D., of Simon Fraser University. Improved AIDS testing and increased access to care is needed.

Funding from the study came from the UK Research Council and from GlaxoSmithKline.

Media Contact

Troy Goodman

(205) 934-8938

tdgoodman@uab.edu

Wake Forest University Baptist Medical Center Researchers disprove long-standing belief about HIV treatment

Researchers at Wake Forest University Baptist Medical Center have disproved a long-standing clinical belief that the hepatitis C virus slows or stunts the immune system's ability to restore itself after HIV patients are treated with a combination of drugs known as the "cocktail."

Hepatitis C (HCV) infection is more serious in HIV-infected people, leading to rapid liver damage, according to the Centers for Disease Control. Intravenous drug use is a main method of contraction for both HIV and HCV and 50 to 90 percent of HIV-infected drug users are also infected with HCV.

The Wake Forest Baptist study looked at whether having HCV co-infection impairs immune restoration in patients receiving highly active anti-retroviral therapy (HAART) to suppress their HIV infection. The results appear in the July issue of AIDS Research and Human Retroviruses.

The research focused on levels of CD4 cells, the specific type of immune cell that is attacked by the HIV virus, and their ability to rebuild after HIV is suppressed.

"We've been observing that in some patients that are co-infected with hepatitis C, we were treating their HIV with HAART but didn't always get very good restoration of CD4," said Marina Nunez, M.D., lead researcher and an assistant professor of infectious diseases. "Some studies suggested it was because of the hepatitis C. This study says it's not the presence of active hepatitis C replication."

Thus, said Nunez, genetic factors involved in the immune system regulation, confounding factors associated with HCV acquisition, or other unknown factors might explain the blunted immune restoration observed in some co-infected patients. "Research efforts should pursue the role of those other factors in the immune restoration," she said.

"From a clinical standpoint, although these findings will not alter the clinical management of HIV-HCV-co-infected patients, they make clear that even after successful treatment of the HCV infection, some patients may still not get an adequate CD4 recovery under HIV treatment."

For the retrospective study, researchers examined existing medical records of 322 patients from two separate databases – one from Madrid, Spain, and the other from Wake Forest University Baptist Medical Center. Patients were separated into two groups – those co-infected with hepatitis C and HIV and those infected only with HIV. Researchers reviewed CD4 levels at baseline (before beginning HIV suppression) and every year after for up to three years, while the patients continuously received HAART, an HIV treatment consisting of three different types of medicines used by many patients, and formerly referred to as the HIV "cocktail."

Years of clinical experience have shown that, with HAART treatment suppressing the HIV, CD4 levels are typically able to restore themselves, Nunez said.

However, in some patients, it has been observed that the immune restoration is poorer after HAART. Therefore, Nunez said, it has been a common practice for doctors to attribute less than desirable CD4 restoration after HAART in co-infected patients to the hepatitis C virus.

Studies to date have found evidence both in support of and against this belief, Nunez said. But a limitation in previous studies has been that co-infected patients have been identified by the presence of HIV and the hepatitis C antibody. Since many patients with hepatitis C clear the active virus but continue to carry the antibody, there hasn't been a pure sample of patients truly co-infected with both active viruses to analyze. In this study, only patients with HIV and active hepatitis C cell replication, therefore active virus, were classified as "co-infected."

The study found that there is no difference in the CD4 restoration of co-infected patients and mono-infected patients. However, it did show some differences that seem to be associated with age, gender or past intravenous drug use.

"The purpose of this study was to find out if hepatitis C was impeding the CD4 restoration in co-infected patients," Nunez said. "And it does not. There are other factors doing it. This study says that you can look into those other factors, but we cannot blame the hepatitis C anymore."

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Media Relations Contacts: Jessica Guenzel, jguenzel@wfubmc.edu, (336) 716-3487; Bonnie Davis, bdavis@wfubmc.edu or Shannon Koontz, shkoontz@wfubmc.edu, (336) 716-4587

Wake Forest University Baptist Medical Center (www.wfubmc.edu) is an academic health system comprised of North Carolina Baptist Hospital, Brenner Children's Hospital, Wake Forest University Physicians, and Wake Forest University Health Sciences, which operates the university's School of Medicine and Piedmont Triad Research Park. The system comprises 1,154 acute care, rehabilitation and long-term care beds and has been ranked as one of "America's Best Hospitals" by U.S. News & World Report since 1993. Wake Forest Baptist is ranked 32nd in the nation by America's Top Doctors for the number of its doctors considered best by their peers. The institution ranks in the top third in funding by the National Institutes of Health and fourth in the Southeast in revenues from its licensed intellectual property.

McGill University Health Centre : Genetic cause of innate resistance to HIV/AIDS

MUHC and CHUM researchers demonstrate how 2 specific genes are involved in an innate resistance to HIV infection

Montreal, 16 July 2008 - Some people may be naturally resistant to infection with HIV, the virus that causes AIDS. The results of a study conducted by Dr. Nicole Bernard of the Research Institute of the McGill University Health Centre (MUHC) bring us closer to a genetic explanation. Her study findings were published on July 16 in the journal AIDS.
The simultaneous expression of certain versions of two specific genes called KIR3DL1 and HLA-B*57 is thought to be at the root of some cases of this innate resistance to HIV infection. Depending on which versions of these two genes the patient has, he or she will resist HIV infection or develop AIDS at a slower rate.
These results were obtained by comparing the genetic profiles of people undergoing primary HIV infection ( in their first year of infection) to those repeatedly exposed to HIV but non-infected. The group of exposed but non-infected patients came from a cohort studied by Dr. Julie Bruneau of the Centre hospitalier de l'Université de Montréal. The cohort of primary HIV infected patients is studied by Dr. Jean-Pierre Routy, from the MUHC. Analyses show that the "good" versions of both genes were present in 12.2% of exposed but non-infected subjects versus only 2.7% in patients in primary HIV infection.
As of yet, no study has clearly described the mechanism of this protection. The KIR3DL1 gene codes for a receptor on the surface of the immune system's natural killer (NK) cells, which when activated destroy infected cells in the body. The HLA-B*57 gene codes for a protein normally found on the surface of all body cells that binds the KIR3DL1 and dampens NK cell activity. The most likely hypothesis is that HIV prevents the HLA-B*57-encoded protein from being expressed on the surface of the infected cells, making it unavailable to bind KIR3DL1. As a consequence, the NK cells retain their activity and destroy the virus-infected cells.
As this mechanism can occur very soon after the virus has started to infect the body cells, people carrying those versions of the 2 genes may be able to destroy more efficiently the infected cells following exposure to HIV, thus lowering their chances of developing AIDS.
"More research is needed to determine the exact mechanism behind the protection we have observed, but these findings have revealed a promising avenue," according to Dr. Bernard.
This study opens the way for new ideas in the fight against HIV infection. "In the future, our findings could be used to somehow 'boost' the innate immune system and thus fight the virus as soon as it enters the body," said Dr. Bernard.
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Dr. Nicole Bernard is a researcher in the Infection and Immunity Axis of the Research Institute of the McGill University Health Centre (RI MUHC) and a member of the McGill AIDS Centre. She is also an Associate Professor of Medicine at the Faculty of Medicine of McGill University.
Dr. Julie Bruneau is a practitioner at the Service de médecine des toxicomanies of the Centre hospitalier de l'Université de Montréal (CHUM) and Assistant Scientific Director of Clinical Research of the Centre de recherche du CHUM. She is also Associate professor at the department of family medicine, Université de Montréal
Dr Jean-Pierre Routy is an investigator in the Infection and Immunity Axis of the RI MUHC, and an Associate Professor of haematology at the Faculty of Medicine of McGill University.
This study was funded by the Canadian Institutes for Health Research (CIHR) and the Fonds de la recherche en santé du Québec (FRSQ).
The McGill University Health Centre
The McGill University Health Centre (MUHC) is a comprehensive academic health institution with an international reputation for excellence in clinical programs, research and teaching. Its partner hospitals are the Montreal Children's Hospital, the Montreal General Hospital, the Royal Victoria Hospital, the Montreal Neurological Hospital, the Montreal Chest Institute and the Lachine Hospital. The goal of the MUHC is to provide patient care based on the most advanced knowledge in the health care field and to contribute to the development of new knowledge. www.muhc.ca
The Research Institute of the McGill University Health Centre (RI MUHC) is a world-renowned biomedical and health-care hospital research centre. Located in Montreal, Quebec, the institute is the research arm of the MUHC, the university health center affiliated with the Faculty of Medicine at McGill University. The institute supports over 600 researchers, nearly 1200 graduate and post-doctoral students and operates more than 300 laboratories devoted to a broad spectrum of fundamental and clinical research. The Research Institute operates at the forefront of knowledge, innovation and technology and is inextricably linked to the clinical programs of the MUHC, ensuring that patients benefit directly from the latest research-based knowledge.
The Research Institute of the MUHC is supported in part by the Fonds de la recherche en santé du Québec.
For further details visit: www.muhc.ca/research.
About CHUM
The Centre hospitalier de l'Université de Montréal (CHUM) provides specialized and ultra-specialized services to a regional and supra-regional clientele. Within its more immediate coverage area, the CHUM also provides general and specialized hospital care and services. The CHUM uses an integrated network model to carry out its five-part mandate of care, teaching, research, the assessment of technologies and health care methodologies, and the promotion of health care. Through its determined efforts to continuously improve quality of care and patient safety, the CHUM has again received accreditation from the Canadian Council on Health Services Accreditation, for the 2007-2010 period. Hôtel-Dieu, Hôpital Notre-Dame, and Hôpital Saint-Luc make up the CHUM, with approximately 10,000 employees, 900 physicians, 270 researchers, 6,000 students and trainees and 700 volunteers providing services to over a million patients each year. www.chumontreal.qc.ca.
For more information please contact:
Isabelle Kling Communications Coordinator (research) MUHC Public Relations and Communications (514) 843 1560 isabelle.kling@muhc.mcgill.ca
Nathalie Forgue Communications Advisor CHUM 514 890-8000, ext. 14342 Pager : 514 801-5762

University College London : Genetic variation increases HIV risk in Africans

A genetic variation which evolved to protect people of African descent against malaria has now been shown to increase their susceptibility to HIV infection by up to 40 per cent, according to new research. Conversely, the same variation also appears to prolong survival of those infected with HIV by approximately two years.
The discovery marks the first genetic risk factor for HIV found only in people of African descent, and sheds light on the differences in genetic makeup that play a crucial role in susceptibility to HIV and AIDS.
The research, published today in Cell Host & Microbe, was co-authored by Professor Robin Weiss, UCL Infection and Immunity, who worked with colleagues in the US to analyse data from a 25-year study of thousands of Americans of different ethnic backgrounds.
The gene that the research focused on encodes a binding protein found on the surface of cells, called Duffy Antigen Receptor for Chemokines (DARC). The variation of this gene, which is common in people of African descent, means that they do not express DARC on red blood cells. DARC influences the levels of inflammatory and anti-HIV blood factors called chemokines.
Discussing the findings, Professor Weiss said: "The big message here is that something that protected against malaria in the past is now leaving the host more susceptible to HIV.
"In sub-Saharan Africa, the vast majority of people do not express DARC on their red blood cells and previous research has shown that this variation seems to have evolved to protect against a particular form of malaria. However, this protective effect actually leaves those with the variation more susceptible to HIV."
Lead author of the study, Professor Sunil K. Ahuja, from The University of Texas Health Science Center at San Antonio, added: "It turns out that having this variation is a double-edged sword. The finding is another valuable piece in the puzzle of HIV-AIDS genetics."
HIV affects 25 million people in sub-Saharan Africa today, an HIV burden greater than any other region of the world. Around 90 per cent of people in Africa carry the genetic variation, meaning that it may be responsible for an estimated 11 per cent of the HIV burden there. The authors observe that sexual behaviour and other social factors do not fully explain the large discrepancy in HIV prevalence in populations around the world, which is why genetic factors are a vital field of study.
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Notes for Editors
1. Journalists seeking more information, or to interview Professor Robin Weiss, can contact Ruth Metcalfe in the UCL Media Relations Office on tel: +44 (0)20 7679 9739, mobile: +44 (0)7990 675 947, out of hours: +44 (0)7917 271 364, e-mail: r.metcalfe@ucl.ac.uk
2. The paper 'Duffy Antigen Receptor for Chemokines (DARC) Mediates Trans-infection of HIV-1 from Red Blood Cells to Target cells and Affects HIV-AIDS Susceptibility' is published in the journal Cell Host & Microbe, published by Cell Press. This is not an open-access journal but copies of the paper can be obtained from Ruth Metcalfe, UCL Media Relations, using the above contact details.
3. The authors of this paper are from: South Texas Veterans Health Care System, Texas, US; The University of Texas Health Science Center in San Antonio, US; UCL; Uniformed Services University, Maryland, US; Wilford Hall United States Air Force Medical Center, US and the San Antonio Military Medical Center.
4. In the UK, this work was supported by a grant to Professor Weiss from the Medical Research Council.
About UCL
Founded in 1826, UCL was the first English university established after Oxford and Cambridge, the first to admit students regardless of race, class, religion or gender, and the first to provide systematic teaching of law, architecture and medicine. In the government's most recent Research Assessment Exercise, 59 UCL departments achieved top ratings of 5* and 5, indicating research quality of international excellence.
UCL is in the top ten world universities in the 2007 THES-QS World University Rankings, and the fourth-ranked UK university in the 2007 league table of the top 500 world universities produced by the Shanghai Jiao Tong University. UCL alumni include Marie Stopes, Jonathan Dimbleby, Lord Woolf, Alexander Graham Bell, and members of the band Coldplay. www.ucl.ac.uk

Cell Press : Gene variant found in those with African ancestry increases odds of HIV infection

A variant of a gene found only in people of African ancestry increases the odds of becoming infected with the human immunodeficiency virus (HIV-1) by 40 percent, according to a long-term study of African Americans reported in the [date] issue of the journal Cell Host & Microbe, a publication of Cell Press. However, once people are infected, the same variant seems to protect against progression of the disease, allowing those who carry it to live about two years longer.
" It's well-known that individuals vary in their susceptibility to HIV and that after infection occurs, the disease progresses at variable rates," said Sunil Ahuja of South Texas Veterans Health Care System and University of Texas Health Science Center at San Antonio. "The mystery of variable infection and progression was originally thought to be mainly the result of viral characteristics, but in recent years it has become evident that there is a strong host genetic component."
The new discovery is one of few genetic risk factors for HIV found only in people of African descent, the researchers added. If the new findings can be extrapolated to Africa, where about 90 percent of all people carry the variant, it may be responsible for 11 percent of the HIV burden there, they estimate.
The gene in question encodes a protein found mainly at the surface of red blood cells, which is called Duffy Antigen Receptor for Chemokines (DARC). The DARC variant found commonly in people of African ancestry leaves them without this particular red blood cell receptor. That so-called "DARC-negative" condition has been well studied because it also confers protection against infection by a malaria parasite known as Plasmodium vivax. (P. vivax is unfortunately not the parasite responsible for millions of malaria deaths each year in Africa today. The researchers speculate that this DARC gene variant may have risen to such high frequency as protection against some other, more lethal strain of malaria that existed at some time in the past.)
" The big message of this paper is that something that protected people against malaria in the past is now leaving them more susceptible to HIV," said Robin Weiss of University College London. "After thousands of years of adaptation, this Duffy variant rose to high frequency because it helped protect against malaria," added Matthew Dolan of the Wilford Hall United States Air Force Medical Center and San Antonio Military Medical Center. "Now, with another global pandemic on the scene, this same variant renders people more susceptible to HIV. It shows the complex interplay between historically important diseases and susceptibility in contemporary times."
Earlier studies had suggested that HIV can bind to red blood cells via DARC. In accord with its name, DARC also binds a wide array of inflammatory molecules known as chemokines, including one called CCL5, which is highly effective in suppressing replication of HIV-1.
Those hints led the researchers to wonder just what the impact of DARC on HIV-AIDS might be. In cell culture, they found further evidence that HIV binds to DARC on red cells. "We started looking at red cells together with HIV and, sure enough, the virus attached," Weiss said. "The DARC molecule on red cells in cell culture then transferred the virus to lymphocytes to get infected." CD4+ T lymphocytes are white blood cells that are a primary target of HIV infection.
When chemokines that also bind DARC were added to the mix, less HIV-1 bound to the red cells, confirming that the virus and chemokines were in competition for the DARC receptor. "Duffy acts somewhat like a sponge," Ahuja said. "It binds all these chemokine molecules and that binding also extends to HIV, setting up a triumvirate of interactions between DARC, chemokines and virus."
The researchers next looked to a large cohort of people in the U.S. Air Force, including more than 1,200 who are HIV positive, who have been followed for nearly 22 years. This group is ideal for evaluating the role of such a gene because this cohort is ethnically balanced and without many of the factors, including differences in economic status and access to health care, that would generally confound any genetic effect, Dolan explained.
Those studies showed that the prevalence of the "DARC-negative" variant in African Americans was greater amongst those with HIV than in those without. Although the DARC-negative genotype was associated with an increased risk of acquiring HIV infection, within the context of established infection a contrary result was observed: people with that variant had a slower disease course, they report.
" The parts of a car that get it into gear are separate from those that get it moving once in gear," Ahuja said. "A similar analogy applies to HIV; the factors that influence its transmission are not necessarily the same as those that influence disease progression."
Although it isn't yet entirely clear how exactly DARC mediates opposing effects during HIV acquisition and disease, the researchers suspect those with the DARC receptor are initially protected because they also have more HIV suppressive chemokines in their system. Once infected, however, the balance turns in favor of those without DARC as increased chemokine levels may promote inflammation in those with DARC. Also, once the virus reaches higher levels, it is more likely to displace chemokines bound to DARC on red cells, further exacerbating inflammation. And during established infection, HIV bound to DARC on red cells is poised for delivery to CD4+ T cells, the researchers said.
The findings help answer an earlier conundrum: the researchers had previously shown that people with a particular variant of the chemokine CCL5 have a faster rate of HIV progression. But, that pattern only held in European Americans, not in African Americans. They now show that the disease-accelerating effect of the CCL5 variant is evident only in DARC-expressing and not in DARC-negative HIV-positive individuals. In other words, the unmeasured effects of DARC amongst African Americans in the earlier study "masked" the influence of CCL5, exemplifying the importance of accounting for such complex gene-gene interactions in genetic studies.
" The results underscore that genetic variants that influence transmission and disease progression can differ in their frequency among different populations, with possible impacts on the heterogeneity of HIV disease burden--not just at the level of individuals but also populations," they concluded. They may also have implications for evaluating the efficacy of HIV vaccines.
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The researchers include Weijing He, Veterans Administration Research Center for AIDS and HIV-1 Infection, South Texas Veterans Health Care System, San Antonio, TX, University of Texas Health Science Center, San Antonio, TX , Stuart Neil, University College London, London, UK, Hemant Kulkarni, Veterans Administration Research Center for AIDS and HIV-1 Infection, South Texas Veterans Health Care System, San Antonio, TX, University of Texas Health Science Center, San Antonio, TX , Edward Wright, University College London, London, UK, Brian K. Agan, Infectious Disease Clinical Research Program, Uniformed Services University, Bethesda, MD, Wilford Hall United States Air Force Medical Center, Lackland Air Force Base, TX , San Antonio Military Medical Center, Fort Sam Houston, TX; Vincent C. Marconi, Infectious Disease Clinical Research Program, Uniformed Services University, Bethesda, MD , Wilford Hall United States Air Force Medical Center, Lackland Air Force Base, TX , San Antonio Military Medical Center, Fort Sam Houston, TX; Matthew J. Dolan, Infectious Disease Clinical Research Program, Uniformed Services University, Bethesda, MD, Wilford Hall United States Air Force Medical Center, Lackland Air Force Base, TX, San Antonio Military Medical Center, Fort Sam Houston, TX; Robin A. Weiss, University College London, London, UK; and Sunil K. Ahuja, Veterans Administration Research Center for AIDS and HIV-1 Infection, South Texas Veterans Health Care System, San Antonio, TX, University of Texas Health Science Center, San Antonio, TX , University of Texas Health Science Center, San Antonio, TX.

Journal of Experimental Medicine : Exhausted B cells fail to fight HIV

Antibodies stick to HIV particles, preventing them from infecting other cells and triggering their destruction by immune cells. This antibody response starts out strong in HIV-infected individuals but eventually peters out. To find out why, scientists from the National Institute of Allergy and Infectious Diseases examined the cells that make the antibodies, known as B cells.

The group now finds that HIV gradually depletes the numbers of healthy, functional B cells. Individuals who had high levels of HIV in their blood had lots of B cells, but they failed to replicate normally or to produce high-quality antibodies. The fatigued B cells sported a protein called FCRL4, which dampens B cells' ability to respond to infection. How HIV turns on FCRL4 remains to be seen.

HIV is already known to knock out the defensive cells that directly attack and destroy infected cells. This new study reveals yet another way the virus dismantles the immune system.

NIH/National Institute of Allergy and Infectious Diseases : Exhausted B cells hamper immune response to HIV

Recent studies have shown that HIV causes a vigorous and prolonged immune response that eventually leads to the exhaustion of key immune system cells--CD4+ and CD8+ T-cells--that target HIV. These tired cells become less and less able to fight the virus, and the cells' fatigue contributes to the inability of an HIV-infected person's immune system to clear the virus from the body.

Now, researchers at the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, have shown that a similar type of exhaustion strikes another important brigade of immune system soldiers: the B cells that make virus-fighting proteins called antibodies.

In most HIV-infected individuals not receiving antiretroviral therapy, the virus replicates continuously, causing systemic disturbances that include changes in certain subsets of B cells that circulate in the blood. One of these subsets, known as "tissue-like memory B cells," is abundant in HIV-infected individuals who do not control their viral burden. These particular cells show signs of premature exhaustion and a reduced ability to make the high-quality antibodies needed to fight HIV.

As with studies of exhausted CD4+ and CD8+ T cells, these new findings related to exhausted B cells help illuminate the complex immune system damage caused by HIV, and the challenges to rebuilding or bolstering an HIV-infected person's immune system.

NIAID's HIV vaccine research program aims to increase the understanding of B cells to help inform the development of an effective vaccine, and this study contributes to this effort. The authors note that the design of a therapeutic vaccine designed to slow HIV disease progression will need to overcome or circumvent the challenge posed by the inability of certain exhausted B cells to make high-quality antibodies.

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ARTICLE: S Moir et al. Evidence for HIV-associated B cell exhaustion in a dysfunctional memory B cell compartment in HIV-infected viremic individuals. Journal of Experimental Medicine DOI 10.1084/jem.20072683.

WHO: Anthony S. Fauci, M.D., Director, National Institute of Allergy and Infectious Diseases (NIAID) and Chief, NIAID Laboratory of Immunoregulation; and Susan Moir, Ph.D., Staff Scientist, NIAID Laboratory of Immunoregulation, are available to comment on this article.

CONTACT: To schedule interviews, contact the NIAID Communications Office, 301-402-1663, niaidnews@niaid.nih.gov.

NIAID is a component of the National Institutes of Health. NIAID supports basic and applied research to prevent, diagnose and treat infectious diseases such as HIV/AIDS and other sexually transmitted infections, influenza, tuberculosis, malaria and illness from potential agents of bioterrorism. NIAID also supports research on basic immunology, transplantation and immune-related disorders, including autoimmune diseases, asthma and allergies.

The National Institutes of Health (NIH)--The Nation's Medical Research Agency--includes 27 Institutes and Centers and is a component of the U. S. Department of Health and Human Services. It is the primary federal agency for conducting and supporting basic, clinical and translational medical research, and it investigates the causes, treatments and cures for both common and rare diseases. For more information about NIH and its programs, visit http://www.nih.gov.

News releases, fact sheets and other NIAID-related materials are available on the NIAID Web site at <http://www.niaid.nih.gov>.

Boston University Researchers: Program discourages HIV transmission in Russia

Researchers from Boston University School of Medicine (BUSM) and Boston Medical Center (BMC) found that sexual behavior counseling during drug addiction treatment should be considered an important component among Russian substance-dependent individuals, in order to decrease risky sexual behavior in the HIV at-risk population. This study appears in the journal Addiction.

Russia has one of the fastest-growing acquired immune deficiency syndrome (AIDS) epidemics in the world. Mainly prevalent among injection drug users, HIV now is expanding into the general population via sexual transmission. According to research, alcohol use is highly pervasive in Russia, and has been associated with sexual HIV risk-taking behavior. According to lead author Jeffrey Samet, MD, chief of the Section of General Internal Medicine at BMC and BUSM, "a behavioral intervention to reduce unsafe sex is an essential component to HIV prevention, and is critical in the absence of a cure or vaccine."

Researchers compared the current method used to decrease unsafe sexual behavior with the Russian Partnership to Reduce the Epidemic Via Engagement in Narcology Treatment (PREVENT) intervention program. Participants were HIV-positive and negative, and were assigned to either the PREVENT program or the standard addiction treatment.

PREVENT sessions occurred at the hospital and involved obtaining HIV test results, discussion of personal risk and creation of a behavioral change plan. Interventionists provided test results and explained the risk reduction plan to promote safe sex that included using condoms, building sexual-negotiation skills, developing positive attitudes regarding safe sex and emphasizing alcohol and drugs role in impairing judgment. After patients were discharged from the hospital, telephone updates took place for three months. Interventionists checked in and updated participants' personal long-term risk reduction goals and plans.

Participants assigned to the standard addiction treatment program received the usual addiction treatment at the hospital, including HIV testing, but no sexual behavior counseling. Those known to be HIV-infected or who tested positive received a 20-minute HIV post-test counseling session with the study interventionists. This session included creating risk reduction goals and a referral to an HIV care program. Subjects were contacted for study check ups, but not counseled. Both participants of the standard addiction treatment and PREVENT program received condoms upon leaving the hospital.

The researchers found that when comparing the two forms of intervention, participants of the PREVENT program had a higher percentage of safe sex than did the standard addiction participants at the six month follow-up visits. "Both control and intervention groups had improvements in the percentage of safe sex occurrences, restraining from unprotected sex and increasing condom use between baseline and the three month follow-up. While the intervention group maintained or improved their safe sex behaviors at the six month follow-up, the standard addiction treatment group worsened," said Samet.

The Russian PREVENT trial demonstrates that an HIV intervention program targeting the sexual behaviors of alcohol and drug users is feasible in inpatient substance abuse treatment settings, and is effective in increasing safe sex.

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Grant support for this study came from the National Institute on Alcohol Abuse and Alcoholism of the NIH.

University of North Carolina at Chapel Hill research team find Psychosocial issues affect HIV/AIDS treatment outcomes

CHAPEL HILL – Psychosocial influences such as stress, depression and trauma have been neglected in biomedical and treatment studies involving people infected with HIV, yet they are now known to have significant health impacts on such individuals and the spread of AIDS, according to a University of North Carolina at Chapel Hill scientist.
Now, a comprehensive update on those influences in the current issue of the journal Psychosomatic Medicine offers a wake-up call and should give infectious disease physicians and other healthcare practitioners working with HIV-infected persons information to improve patient outcomes, said Jane Leserman, Ph.D., sociologist, professor of psychiatry in the UNC School of Medicine and co-editor of the special journal issue subtitled "Psychosocial Influences in HIV/AIDS: Biobehavioral Mechanisms, Interventions and Clinical Implications."
"A huge amount of research has been done in our field around these psychosocial influences, yet we felt not all medical professionals working with HIV-infected persons were aware of this body of knowledge," Leserman said. "Our goal was to publish a comprehensive yet succinct review of the important biobehavior research and its impact on patient care.
"We hope this special issue will serve as a catalyst for healthcare providers to address these problems as part of standard HIV care, and to stimulate collaborations between biomedical and biobehavioral clinicians and researchers working as a team to address the quantity and quality of life for these patients."
Psychosomatic Medicine is the journal of the American Psychosomatic Society. The contents of this special issue will be available as an open-access document, free-of-charge to all interested parties at www.psychosomaticmedicine.org following the journal's publication on June 20.
The special issue contains 13 peer-reviewed articles addressing five overarching themes:
Depression, anxiety, and stressful and traumatic life events occur in epidemic proportions in HIV-infected persons.
These psychosocial factors (e.g., depression, trauma and coping with stress) have consistent and clinically relevant influences on HIV disease progression.
The effects of psychosocial factors may be mediated biologically through changes in the sympathetic nervous system, "stress hormones" and the immune system, as well as behaviorally through changes in such behaviors as non-adherence to medications.
Interventions to address depression, stress and coping may help to ameliorate some of the negative health and behavioral effects associated with poor psychological functioning.
Asking about past trauma, current stress, depression and coping need to become routine aspects of a multidisciplinary and comprehensive approach to HIV treatment.
Recent large, long-term studies show that HIV and AIDS patients with chronic depression and trauma are about twice as likely to die from AIDS-related causes, Leserman said.
"No one argues about the importance of following the numbers – immune cell counts and levels of the virus in the blood – nor should they," Leserman said. "But there is substantial and consistent evidence that depression, stressful life events and trauma account for some of the variability in HIV disease course. That can't be ignored."
Leserman cited the clinical significance of addressing the psychosocial issues that exist in epidemic proportions in HIV-infected populations. One study of men and women being treated in infectious disease clinics in the southeastern United States found that more than 70 percent of those patients had suffered at least two major lifetime traumas – about half had been sexually and/or physically abused.
"Asking about past trauma and current life issues brings a fuller, truer focus on the patient and should be a routine practice in any multi-disciplinary and comprehensive approach to HIV treatment."
Such inquiries could have a positive impact on patient care if they lead to appropriate referrals for psychological and behavioral treatment, Leserman said.
"In these populations with high psychosocial disturbance, there is also a documented higher proportion of risky behaviors – such as lack of adherence to treatment – that translates into a higher likelihood of developing drug resistance," Leserman said. "Patients developing drug resistance become harder to treat and more likely to pass on a resistant strain of the virus."
Leserman believes more research is needed to investigate the biological and behavioral mediators of the relationship between psychosocial issues and the immune system, and the types of interventions that could lessen the negative health impact of chronic depression and trauma.
"We need ways to integrate what we're learning into the routine practice of medicine," Leserman said. "At one time, psychosocial issues may have seemed irrelevant, but now a wealth of research is indicating that we must pay attention to these factors. Although psychosocial research in HIV is fast becoming a well accepted and traveled road, many questions remain. This field is not yet a super highway."
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Note: Leserman can be reached at (919) 966-4755 or jles@med.unc.edu.
School of Medicine contacts: Stephanie Crayton, (919) 966-2860, scrayton@unch.unc.edu; Les Lang, (919) 966-9366, llang@med.unc.edu News Services contact: Patric Lane, (919) 962-8596, patric_lane@unc.edu

Duke University Medical Center research : HIV screening found cost-effective in older adults

DURHAM, NC – Recent studies suggest that large numbers of Americans remain sexually active well into their 60's, 70's and even 80's. But researchers at Duke University Medical Center say seniors may be overlooked as possible carriers of the AIDS virus, and based on a new study, they are recommending screening for most adults ages 55 to75 as a sensible, cost-effective way to prolong life and decrease the spread of the disease.
"Many of us might think of HIV as associated with teens and younger adults, but statistics show that 19 percent of those infected were diagnosed at age 50 or older," says Gillian Sanders, Ph.D., associate professor of medicine at the Duke Clinical Research Institute and the lead author of the study appearing in the June 17 issue of the Annals of Internal Medicine.
The Centers for Disease Control recommends HIV screening for patients aged 13 to 64, and Sanders says it is clearly cost-effective to screen younger populations – even if the prevalence of the disease is low – because any benefits will be enjoyed over a much longer period. But HIV is less prevalent among older Americans. In addition, older patients are also more likely to have fewer sex partners and more life-threatening conditions that might make routine screening less economically attractive.
"Until now, we've assumed that screening made a lot of sense in younger people but we really didn't know if it was a good use of our healthcare resources in older folks," says Sanders. "That's why we needed to do this study."
Sanders worked with colleagues at Stanford University, the Veterans Affairs Palo Alto Health Care System and St. Michael's Hospital in Toronto in evaluating the cost-effectiveness of HIV screening among patients aged 55 to 74.
The authors used a computerized model that tracked older patients over their lifetime. The model noted whether the patients were screened or not, their HIV status, the clinical course of any HIV disease, the cost and consequences of any transmission and the cost and effects of treatment. They also took into account the likelihood of any age and gender-related issues that could shorten the patients' lives.
Cost-effectiveness is often measured in quality-adjusted life-years (QAYLs), a figure that takes into account numerous factors, including the quality of life and the length of life.
The authors noted that the cost-effectiveness of HIV screening was dependent on the prevalence of the disease, the age of the patient, the cost of counseling and whether the patient was sexually active.
Assuming that 0.5 percent of the study population were HIV-positive, the researchers found that HIV screening for patients aged 65 who were not sexually active would cost $55,440 per QALY gained, while screening for sexually-active 65 year olds would cost $30,020 per QALY. Sanders says such figures are within the range of other accepted cost-effective ratios, and in the United States, these would generally be considered "a good use of our healthcare dollars."
Based on case studies, they also found that screening and early diagnosis for a 65-year old HIV-infected patient could mean an extra half year of life, while for a 75-year old HIV-infected patient, it would mean an extra four months of life.
"This suggests that HIV screening for many older adults is indeed cost-effective, particularly for those who are sexually active," says Sanders, who says some of the newer, lower-cost, streamlined counseling formats might be particularly appropriate for this population.
"All of us also need to remember that age doesn't protect anyone from HIV. You're as vulnerable at 60 as you are at 16."
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The study was funded by the Department of Veterans Affairs, the National Institute on Drug Abuse, the National Institute on Aging and the Ontario HIV Treatment Network.
The senior author of the study is Douglas Owens, a senior investigator at the VA Palo Alto Healthcare System and a professor of medicine at Stanford. Other co-authors are Mark Holodniy, also at the VA and a professor of medicine at Stanford, and Ahmed Bayoumi, a professor of medicine and health policy, management and evaluation, at the University of Toronto.

University of North Carolina at Chapel Hill research team find Adult stem cells aid fracture healing; UNC study lays groundwork for potential treatmen

CHAPEL HILL – In an approach that could become a new treatment for the 10 to 20 percent of people whose broken bones fail to heal, researchers at the University of North Carolina at Chapel Hill have shown that transplantation of adult stem cells can improve healing of fractures.
Adult stem cells are specialized cells with the ability to regenerate tissue in response to damage. However, many patients lack sufficient numbers of these cells and thus cannot heal properly.
Researchers have used adult stem cells in a few cases to improve fracture healing, but further studies were needed to show that this method was truly effective and safe before it can be pursued as a new treatment.
Now scientists at UNC have provided the scientific foundation for future clinical trials of this approach by demonstrating in animal models that these cells can be used to repair broken bones.
"This finding is critical to patients who lack the proper healing process and to individuals prone to broken bones, such as those with osteoporosis and the rare genetic condition known as brittle bone disease," said Dr. Anna Spagnoli, associate professor of pediatrics and biomedical engineering in the UNC School of Medicine and senior author on the study.
The study, presented Monday, June 16 at the annual Endocrine Society meeting in San Francisco by the first author, Froilan Granero-Molto, Ph.D., post-doctoral associate researcher in UNC's pediatrics department, is the first to visualize the action of transplanted adult stem cells as they mend fractures in mice.
During normal fracture healing, stem cells migrate to the site of the break, forming the cartilage and bone needed to fuse the broken bones back together. But in more than 600,000 Americans a year, this process does not occur as it should and these bones stay broken. The result can be long periods of immobilization, pain, bone deformities and even death.
Current therapies, such as multiple surgeries with bone autografts and artificial prosthetic materials, often are not enough to cure these patients.
"Man-made materials do not address the normal bone's function, and recurrent fractures, wear and toxicity are a real problem," Spagnoli said. "There is clearly a need to develop alternative therapies to enhance fracture healing in patients with bone union failure."
Kicking stem cells into repair mode is one of the objectives of a new branch of medicine called regenerative medicine. With a little prodding, stem cells in human bone marrow – called mesenchymal stem cells – can turn into bone, cartilage, fat, muscle and blood vessel cells.
"The beauty of regenerative medicine is that we are helping the body improve its innate ability to regenerate healthy tissue on its own, rather than introducing manmade materials to try to patch up a broken bone," Spagnoli said.
Granero-Molto and other colleagues led by Spagnoli demonstrated this approach by transplanting adult stem cells in mice with fractures of the tibia, the long bone of the leg. The cells were taken from the bone marrow of mice that produce luciferase, the same molecule that allows fireflies to glow. In addition to possessing the ability to glow, the cells were engineered to express a molecule called insulin-like growth factor 1 (IGF-1). IGF-1 is a potent bone regenerator necessary for bones to grow both in size and strength.
The researchers transplanted the cells through a simple intravenous injection and then placed the mice into a dark box so they could track the glowing stem cells as they migrated within the rodent. They found that these cells were specifically attracted to the fracture site, and that a particular molecule called CXCR4 – which acts as a homing signal – was necessary for the migration.
Using a computerized tomography (CT or CAT) scan, the researchers showed that the stem cells not only migrated to the site of the fracture, but also improved healing there by increasing the bone and cartilage that bridged the bone gap. The bone at the fracture site in the treated mice was about three times stronger than that of untreated controls.
If scientists can duplicate the results of this animal study in humans, it may lead to a new treatment for the millions of people who suffer fractures that do not heal properly, Spagnoli said. Once a physician determines that the bone has not healed, they could obtain adult stem cells from the person's bone marrow in a minimally invasive procedure and transplant them at the same time the patient is receiving a bone graft.
Spagnoli said adult stem cells may pose fewer problems than embryonic stem cells, since they are not associated with the ethical controversy that surrounds the latter. Also, they may avoid the problem of rejection by the immune system, since the patient's own cells can be used.
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Funding for the study came from the National Institutes of Health.
Other co-authors of the study include Dr. Lara Longobardi, UNC assistant professor of pediatrics, along with the following researchers from Vanderbilt University: Dr. Michael Miga, assistant professor of biomedical engineering; Dr. Jared A. Weis, postgraduate fellow in biomedical engineering; Benjamin Landis, medical student; and Lynda O'Rear, research specialist.
School of Medicine contacts: Stephanie Crayton, (919) 966-2860, scrayton@unch.unc.edu or Les Lang, (919) 966-9366, llang@med.unc.edu
News Services contact: Patric Lane, (919) 962-8596, patric_lane@unc.edu

Gladstone Institutes research : Protein linked to Alzheimer's disease also has role in HIV progression

ApoE4 identified as a culprit in entry of HIV into cells
SAN FRANCISCO, CA—June 16, 2008--The apolipoprotein (apo) E4 isoform has been implicated in neurodegeneration in Alzheimer's disease, cardiovascular disease, and stroke. Now, investigators at the Gladstone Institutes, the University of California, San Francisco, the University of Texas Health Science Center at San Antonio, and the Infectious Disease Clinical Research Program, Uniformed Services University, Bethesda, Maryland have shown that this troubling protein is a risk factor for AIDS progression rates and promotes entry of HIV into cells. The study was published in today's issue of the Proceedings of the National Academy of Sciences USA (PNAS).
"The apoE4 protein is the greatest known genetic risk factor for Alzheimer's disease," said Gladstone president and study author Robert W. Mahley. "However, its role in infectious diseases has been less well-defined."
ApoE has three isoforms that differ by only one amino acid. Yet this seemingly small sequence difference has profound implications for the structure and function of the protein. ApoE4 has an extra intramolecular bond that results in a more compact structure, and it also is more likely to be unstable—characteristics that have been linked to its deleterious effects. Although the apoE3 gene is the most prevalent in all human populations, with frequencies of 50%󈞲%, the genetic variant that leads to production of apoE4 is also widely distributed; its prevalence is 15%󈞀%.
The different effects of the apoE isoforms in other settings led the investigators to hypothesize that a similar difference might exist in HIV infection.
To test this hypothesis, Dr. Mahley teamed up with Trevor Burt and Joseph M. McCune of the University of California, San Francisco, Brian Agan and Matthew Dolan of the Infectious Disease Clinical Research Program, and Sunil Ahuja of the University of Texas Health Science Center at San Antonio to examine a large and well-characterized cohort of 1267 HIV-positive subjects of European and African American descent and 1132 ethnically matched seronegative controls. The goal was to study the interactions between apoE and HIV in tissue culture. Several questions were of great interest. Does apoE genotype affect disease progression? Do apoE isoforms influence cell entry by HIV in a manner concordant with the impact of the corresponding APOE alleles on HIV disease progression? Do the genetic variants of apoE convey differential susceptibility to HIV-associated dementia, a condition that shares many pathogenic and clinical features with Alzheimer's disease?
The researchers found a much faster disease course and progression to death in patients with two copies of the apoE4 allele than in patients with two copies of the apoE3 allele. The corresponding apoE4 isoform enhanced in vitro HIV fusion/cell entry of HIV strains that use both the CCR5 and CXCR4 chemokine coreceptors to enter the cell. However, the apoE4 gene did not increase the incidence of HIV-associated dementia.
"A large body of evidence suggests that the amphipathic helical domains of apolipoproteins act as fusion inhibitors," said Dr. Mahley. "We speculate that these domains in apoE inhibit HIV infection in a manner analogous to the clinical HIV fusion inhibitor Enfurvitide. Our findings suggest apoE4 is less efficient than apoE3 at inhibiting fusion of HIV to target cells."
Polymorphisms in host genes significantly affect susceptibility to HIV-1 infection and the rate of disease progression. The study of these polymorphisms has increased the understanding of HIV pathogenesis and informed the development of new antiviral therapeutics.
The findings from this study show that apoE is a determinant of the pathogenesis of HIV/AIDS and raise the possibility that current efforts in the Gladstone Center for
Translational Research to convert apoE4 to an "apoE3-like" molecule for the treatment of Alzheimer's disease might also have clinical applicability in HIV disease.
"Although we suspected that apoE4 had a role in infectious disease, this aspect of the study is very exciting for us because we already have studies under way to find small molecules that make apoE4 more like apoE3," said Dr. Mahley. "Now those potential new drugs may have more value than we originally thought."
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Additional members of the research team were Weijing He and Hemant Kulkarni of the University of Texas Health Science Center at San Antonio, Jeffrey E. Mold of the University of California, San Francisco, Marielle Cavrois and Yadong Huang of the Gladstone Institutes, and Vincent C. Marconi of the Uniformed Services University of Health Sciences.
About the Gladstone Institutes
The J. David Gladstone Institutes, an independent, nonprofit biomedical research organization affiliated with the University of California, San Francisco, is dedicated to the health and welfare of humankind through research into the causes and prevention of some of the world's most devastating diseases. Gladstone is comprised of the Gladstone Institute of Cardiovascular Disease, the Gladstone Institute of Virology and Immunology and the Gladstone Institute of Neurological Disease. Two years ago, Gladstone formed the Center for Translational Research to create collaborations with biotechnology and pharmaceutical partners for the preclinical development of its most promising therapeutic research candidates. More information can be found at www.gladstone.ucsf.edu.

American College of Physicians : Annals of Internal Medicine tip sheet for June 17, 2008, issue

1. Hearing Impairment is Common Among Adults With Diabetes
Hearing impairment is common in adults with diabetes, and diabetes seems to be an independent risk factor for the condition. Using the National Health and Nutrition Examination Survey, collected by the National Center for Health Statistics from 1999 to 2004, researchers analyzed data from 5,140 adults aged 20 to 69 who completed an audiometric examination and a diabetes questionnaire. Hearing impairment was more prevalent among adults with diabetes. Age-adjusted prevalence of low- or mid-frequency hearing impairment of mild or greater severity assessed in the worse ear was 21.3 percent among 399 adults with diabetes compared to 9.4 percent among 4,741 adults without diabetes. These differences in hearing between people with and without diabetes were present in both sexes; all groups of race or ethnicity, education, and income; and all age groups but the oldest. See separate news release and video news release for more information.
Note: This article will be posted online at www.annals.org along with the June 17, 2008, issue of Annals of Internal Medicine. It will appear in the July 1, 2008, print edition of the journal.
2. Coffee Drinkers Have Slightly Lower Death Rates Than People Who Do Not Drink Coffee
Regular coffee drinking (up to 6 cups per day) is not associated with increased deaths in either men or women. In fact, both caffeinated and decaffeinated coffee consumption is associated with a somewhat smaller rate of death from heart disease. Women consuming two to three cups of caffeinated coffee per day had a 25 percent lower risk of death from heart disease during the follow-up period (which lasted from 1980 to 2004 and involved 84,214 women) as compared with non-consumers, and an 18 percent lower risk of death caused by something other than cancer or heart disease as compared with non-consumers during follow-up. For men, this level of consumption was associated with neither a higher nor a lower risk of death during the follow-up period (which lasted from 1986 to 2004 and involved 41,736 men). See separate news release and video news release for more information.
3. Screening HIV in Patients Older Than 55 Years of Age is Cost-Effective
A new study examined the cost-effectiveness of HIV screening in patients from age 55 to 75. Recently revised screening guidelines issued by the CDC recommend that all patients aged 13 to 64 be tested. The study looked at economic effects of voluntary HIV screening in patients aged 55 to 75: 8,672 inpatients and outpatients at six Department of Veterans Affairs Health Care Systems, whose HIV status was unknown, were included. The authors concluded that if the tested population has an HIV prevalence of 0.1 percent or greater, HIV screening in persons from age 55 to 75 is cost-effective according to conventional definitions of cost-effectiveness. The authors also suggest that to be cost-effective, screening decisions in patients older than 64 should consider whether the patient is at increased risk, has a partner at risk for contracting HIV, or has other life-threatening conditions. Advanced age alone should not preclude screening for HIV.
4. Open-access Scheduling has Mixed Results
The goal of open-access scheduling of office appointments is to guarantee patients that they can see a physician on the same day that they seek an appointment. The authors assessed the impact of open-access scheduling on patient appointment availability, no-show rates, and patient and staff satisfaction in six primary care practices from 2003 to 2006. The authors found that within four months of implementation, practices were able to significantly reduce their mean wait for appointment availability. However, none of the practices attained the goal of same-day access, although most practices felt their efforts were beneficial, since implementing open-access scheduling forced a re-evaluation of office systems and staffing. The findings contrast with the more optimistic results of several previous studies, which suggests the need for large-scale research of the effects of open-access scheduling.
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Annals of Internal Medicine is published by the American College of Physicians. These highlights are not intended to substitute for articles as sources of information. Information in press materials is copyrighted. Annals of Internal Medicine attribution is required.

Duke University Medical Center uncovered definitive evidence that a small but potent subset of immune system B cells is able to regulate inflammation

DURHAM, N.C. – Researchers at Duke University Medical Center have uncovered definitive evidence that a small but potent subset of immune system B cells is able to regulate inflammation.

Using a new set of scientific tools to identify and count these cells, the team showed that these B cells can block contact hypersensitivity, the type of skin reactions that many people have when they brush against poison ivy.

The findings may have large implications for scientists and physicians who develop vaccines and study immune-linked diseases, including cancer. Once the cells that regulate inflammatory responses are identified, scientists may have a better way to develop treatments for many diseases, particularly autoimmune diseases such as arthritis, type 1 diabetes and multiple sclerosis.

“While the study of regulatory T cells is a hot area with obvious clinical applications, everyone has been pretty skeptical about whether regulatory B cells exist,” said Thomas F. Tedder, Ph.D., chairman of the Immunology Department and lead author of the study published in the May issue of Immunity. “I am converted. They do exist.”

Koichi Yanaba and Jean-David Bouaziz identified this unique subset of small white blood cells, which they call B10 cells, in the Tedder laboratory.

The researchers found that B10 cells produce a potent cytokine, called IL-10 (interleukin-10), a protein that can inhibit immune responses. The B10 cells also can affect the function of T cells, which are immune system cells that generally boost immune responses by producing cytokines. T cells also attack tumors and virus-infected cells.

The study was supported by grants from the NIH, the Association pour la Recherche contre le Cancer (ARC), Foundation Rene Touraine, and the Philippe Foundation.

Depleting B10 cells may enhance some immune responses, Tedder said. Enhancing B10 cell function may inhibit inflammation and immune responses in other diseases, like contact hypersensitivity.

“Now that we have been able to identify this regulatory B cell subset, we have already developed treatments that deplete these cells in mice. We are moving to translate these findings to benefit people,” he said.

“The discovery of the ability to identify this potent regulatory cell type should provide important clues to how the immune system regulates itself in response to vaccines as well as infectious agents,” says Barton F. Haynes, M.D., leader of the international Center for HIV/AIDS Vaccine Immunology (CHAVI), a consortium of universities and academic medical centers, and director of the Duke Human Vaccine Institute. “This information should enable researchers to design ways to help the immune system control infections more effectively, and could be a useful advance as we refine approaches to preventing HIV infection.”

There’s a huge initiative underway to look at regulatory T cells in autoimmune disease, HIV infection, and cancer therapy,” Tedder said. “What we have also shown is that it is not only regulatory T cells, but also regulatory B cells that could prevent a person from making effective immune responses in HIV and many other diseases, particularly cancer.”

The Duke researchers developed a way to mark the B10 cells so that they could see that just these cells were producing IL-10. Previously, scientists could only purify a population of B cells and see whether IL-10 could be produced by some of these cells in the population.

In this study, they found that the B10 cells represented only 1-2 percent of all of the B cells in the spleen of a normal mouse. Before this, no one had definitively identified this B cell subset or such regulatory B cells in normal mice, although B cell regulatory function had been described in some genetically altered mice with chronic inflammation.

“In this study, we could directly look at the B cells that were producing IL-10, and figure out what their cell surface molecules looked like, so that we could isolate them. This allowed us to show that this rare subset of B cells controlled immune responses by producing IL-10, which inhibits T cell inflammatory responses,” Tedder said.

The scientists studied a special mouse (CD19-deficient) with altered genes that give them an increased contact hypersensitivity reaction. As it turned out, these mice lacked B10 cells, which resulted in exaggerated inflammation reaction. “This allowed us to show that giving CD19-deficient mice a few B10 cells had a big effect on reducing inflammation,” Tedder said.

They found that depleting all B cells in the mice also resulted in worse inflammation. Since total B cell depletion therapies are now being used to treat people with B cell cancers and autoimmune disease, these findings help to further explain how these therapies treat disease. They also open the door to creating new therapies that take advantage of the power of B10 cells.

This is the first of several papers that will describe cases in which regulatory B10 cells help control immune responses, Tedder said.

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Karen Haas and Jonathan Poe of the Duke Department of Immunology, and Manabu Fujimoto of the Department of Dermatology at Kanazawa University Graduate School of Medical Science in Ishikawa, Japan, were the paper's other authors.

HIV : Stopping Sexual Transmission of HIV

By Rowena Johnston, Ph.D., and Jeffrey Laurence, M.D.
May 15, 2008—The ease with which HIV is sexually transmitted is influenced by a number of factors, including the presence of other sexually transmitted infections, especially those that cause internal or external genital ulcers. amfAR grantee Eva Rakasz, Ph.D., of the Primate Research Center in Madison, Wisconsin, writing in the April issue of Journal of Virology, explored how SIV—the monkey AIDS virus—infects female macaques. Her research raises questions regarding the best ways to approach designing new HIV prevention technologies.
Such research is critical at this juncture in the AIDS epidemic. Scientists know that people have up to a threefold greater risk of acquiring HIV sexually if they are infected with herpes simplex virus HSV-2, a common cause of genital ulcers. This observation led doctors to suspect that herpes-suppressive medication might reduce the risk of HIV transmission. But a controlled trial conducted among thousands of men and women in various sites around the world failed to show an impact of HSV treatment with acyclovir on new HIV infections.
In the study, genital ulcerative disease was reduced by over one-third in those receiving acyclovir, but without cutting the rates of HIV infections. It is possible that this level of reduction was insufficient, but it is also necessary to know much more about the mechanisms whereby HIV is transmitted sexually. Scientists have determined that genital inflammation in HIV-positive men leads to accumulation of thousands of HIV-infected cells in their semen, which may target cells in the female reproductive system. What is unclear, however, is whether, or how, other mechanisms operate to increase the risk of acquiring HIV when herpes or other sexually transmitted infections are present.
Rakasz and colleagues sought to understand some of those mechanisms by pinpointing the sites of viral entry and viral growth in female monkeys whose vaginal and cervical tissues were treated to mimic genital herpes ulcers. Among these monkeys, transmission of SIV via infected cells was four times more common in sites of visible genital ulcerative disease. But most surprising was the speed with which the virus was subsequently able to enter the immune system via the lymph nodes of these animals. Within 24 hours, virus was found in lymph nodes in the vicinity of the vagina, and after two days, virus had already spread throughout the body, as evidenced by its presence in lymph nodes located under the animals’ arms.
So where does this leave us? Rakasz suggests that the speed of virus dissemination throughout the body—“more akin to intravenous injection,” she warns—will make development of an AIDS vaccine all the more daunting since vaccines generally take many days, if not several weeks, to facilitate the clearing of an infection. More work on other prevention technologies such as microbicides, together with behavioral interventions that can be widely and easily implemented, remain key to preventing the spread of HIV.
Dr. Johnston is amfAR’s vice president of research.
Dr. Laurence is amfAR’s senior scientific consultant.