Showing posts sorted by date for query anti-retroviral. Sort by relevance Show all posts
Showing posts sorted by date for query anti-retroviral. Sort by relevance Show all posts

Tuesday, March 5, 2019

Latest anti-retroviral drug therapies offer powerful solution for HIV infection-associated frailty

In continuation of my update on anti-retroviral drug

 reatment of the HIV/AIDS epidemic has seen remarkable advancements with the advent of the latest anti-retroviral drug therapy and powerful tools to test for drug resistance, making the infection almost "undetectable" in patients who strictly comply with their medication therapy, a just-published perspective article by a clinical team at the University of Arizona College of Medicine - Tucson points out.

Lead author Stephen A. Klotz, MD, professor in the Division of Infectious Diseases in the UA Department of Medicine, adds that in the past, HIV/AIDS patients often suffered from extreme frailty, in effect, often "aging 10 to 15 years" in appearance and function.
But the article, HIV Infection-Associated Frailty: The Solution for Now is Antiretroviral Drugs, published Feb. 25, 2019 in the Journal of the International Association of AIDS Care Providers, notes frailty related to HIV infection is "rapidly becoming a specter of the past." Further, thanks to the new treatments, disfiguring lipodystrophy (changes in body fat that affect some patients) is "a grim historical footnote to the HIV epidemic" in the United States," the authors add.
"We have shown that years of anti-retroviral therapy can return patients to a non-frail state. In addition, prolonged anti-retroviral therapy restores cellular function and numbers of cells adversely affected by HIV," Dr. Klotz says. "Recently we demonstrated a marked improvement in aging markers in HIV patients on long-term anti-retroviral drug therapy."
The team also has employed another major advancement in the treatment of HIV/AIDS: A "Frailty Meter," developed by Bijan Najafi, PhD, MSc, then a professor in the UA Department of Surgery and director of the Consortium on Advanced Motion Performance.
The device now allows clinicians to measure HIV/AIDS patients' frailty in a matter of seconds - whereas in the past frailty measurements often required several clinic visits.
The Frailty Meter detects frailty through a small, Bluetooth-supported motion sensor that attaches to the subject's wrist. In about 20 seconds, it measures subjects' elbow flexes (similar to arm curls) to accurately determine their frailty. (Dr. Najafi now is a professor of surgery and director of clinical research, Division of Vascular Surgery, Baylor College of Medicine.)
Another major clinical advancement is the ability today to cure the hepatitis C virus infection, which in the past commonly was associated with HIV/AIDS infection, Dr. Klotz points out. "So this other viral scourge is decreasing in prevalence, not only in the general public, but in our HIV patients as well."
Remarkably, today, patients with HIV take a single anti-retroviral pill (which contains three medications) once a day, "with virtually no side effects," Dr. Klotz says, noting in the early 1980s, patients might have taken nearly 20 pills a day, with many suffering severe side effects.
In related research led by co-authors Nicole Bradley, PhD, a postdoctoral research associate in the UA Department of Immunobiology and Nafees Ahmad, PhD, professor in the UA Department of Immunobiology and a member of the UA Cancer Center, the team also is studying specific immune aging markers in HIV patients "and once again is finding improvement in infected patients on continuous long-term anti-retroviral therapy," according to the article.
Co-author Shannon Smith, MBA, manages the Petersen Clinics, part of the UA Department of Medicine's Division of Infectious Diseases. In collaboration with Banner - University Medicine, Petersen Clinics provides clinical care for people living with, or at risk for, HIV. The program provides outpatient care at affordable prices for HIV-infected adults, plus testing, education and counseling services to patients and their families. The program provides biomedical interventions for people at risk for HIV, including Pre-Exposure Prophylaxis (PrEP) and Non-Occupational Post-Exposure Prophylaxis (nPEP), Smith says. The Petersen Clinics uses a multi-disciplinary team approach to provide patients comprehensive HIV specialty care and is comprised of infectious disease specialists, pharmacists, clinical coordinators, medical case managers and early interventionists.
"We're very proud of the scope of services we provide," Smith says. "We're very creative in ensuring our patients and families obtain the care they need."
Ref : https://opa.uahs.arizona.edu/newsroom/news/2019/latest-anti-retroviral-drug-regimens-provide-lazarus-effect-hiv-patients

Monday, October 26, 2015

Two studies identify promising new anti-retroviral strategy to combat HIV-1

A pair of studies by researchers at the University of Massachusetts Medical School, the University of Trento in Italy, and the University of Geneva in Switzerland, point to a promising new anti-retroviral strategy for combating HIV-1. The two studies, published online in Nature, show that the host cell membrane proteins SERINC5 and SERINC3 greatly reduce the virulence of HIV-1 by blocking the ability of the virus to infect new cells. HIV-1 encodes a protein called Nef that counteracts the SERINCs. New drugs that target the HIV-1 protein Nef would permit the SERINC proteins to inactivate the virus. The papers will appear in the October 8 issue of Nature.

"It's amazing, the magnitude of the effect that these proteins have on infectivity," said Jeremy Luban, MD, the David J. Freelander Professor in AIDS Research and professor of molecular medicine at UMass Medical School. "The SERINC proteins reduce the infectivity of HIV-1 virions by more than 100-fold."

Heinrich Gottlinger, professor of molecular, cell and cancer biology at UMass Medical School said, "The ability of HIV to inhibit these SERINC proteins has a profound impact on its capacity to infect other cells. Disrupting this mechanism could be a very powerful strategy for treating HIV and similar viruses that express the Nef protein."

The two studies, each done independently, used completely different, yet complementary, methodologies to unravel the complex interaction between the HIV-1 protein Nef and the cell surface membrane proteins SERINC5 and SERINC3, both of which are expressed in the immune system's T cells. Dr. Luban, working with former members of his lab, Massimo Pizzato, PhD, now of the University of Trento in Italy, and Federico Santoni of the University of Geneva in Switzerland, performed massively parallel sequencing on 31 human cell lines that differed in terms of the magnitude of dependence on Nef for HIV-1 replication. Independently, Dr. Gottlinger approached the problem biochemically. Conducting proteomic analysis of purified virions, he was able to identify host cell proteins that Nef regulated.



Two studies identify promising new anti-retroviral strategy to combat HIV-1