HIV Infection Prematurely Ages People by an Average of Five Years

Epigenetic changes also associated with 19 percent increased risk of mortality —

Thanks to combination antiretroviral therapies, many people with HIV can expect to live decades after being infected. Yet doctors have observed these patients often show signs of premature aging. Researchers at University of California San Diego School of Medicine and the University of Nebraska Medical Center have applied a highly accurate biomarker to measure just how much HIV infection ages people at the cellular level — an average of almost five years.

The study is published April 21 in Molecular Cell. … Read the Full Story from the UC San Diego Newsroom


Trey Ideker, PhD

Trey Ideker, PhD

Trey Ideker, PhD, Professor of Medicine and Professor of Bioengineering, is co-corresponding author of the study report in Molecular Cell (article access for UC San Diego only).

Other Department of Medicine authors include Andrew M. Gross, Philipp A. Jaeger, Jason F. Kreisberg and Katherine Licon.

Biomarking Time

Methylome modifications offer new measure of our “biological” age

Women live longer than men. Individuals can appear or feel years younger – or older – than their chronological age. Diseases can affect our aging process. When it comes to biology, our clocks clearly tick differently.

In a new study, researchers at the University of California, San Diego School of Medicine, with colleagues elsewhere, describe markers and a model that quantify how aging occurs at the level of genes and molecules, providing not just a more precise way to determine how old someone is, but also perhaps anticipate or treat ailments and diseases that come with the passage of time. … Read the full story from the UCSD Newsroom


Trey Ideker, PhDTrey Ideker, PhD, is co-senior author of the study report. He is professor of medicine and chief of the Division of Medical Genetics, professor of bioengineering and faculty investigator in the UCSD Institute for Genomic Medicine.The overall goal of Ideker’s work is to map and model molecular networks of cellular processes in health and disease, particularly in cancer and the response to genotoxic stress.

Coauthors of the study report include Rob DeConde, a graduate student in Ideker’s laboratory.

Read the abstract of the study report in PubMed

Citation: Hannum G, Guinney J, Zhao L, Zhang L, Hughes G, Sadda S, Klotzle B, Bibikova M, Fan J-B, Gao Y, Deconde R, Chen M, Rajapakse I, Friend S, Ideker T, Zhang K: Genome-wide Methylation Profiles Reveal Quantitative Views of Human Aging Rates. Molecular cell doi:10.1016/j.molcel.2012.10.016. PMID: 23177740