News Release

Temple scientist awarded NIH funding to study relationship between HIV, substance use and heart disease

Grant and Award Announcement

Temple University Health System

(Philadelphia, PA) – With prompt diagnosis and the right treatment, people with HIV can live long, healthy lives. In recent years, however, gains in survival among people with HIV have exposed a new concern – an increase in the incidence of early-onset cardiovascular disease associated with long-term HIV.

The reason why cardiovascular disease is likely to develop a full decade earlier in people with HIV than in people without HIV is unclear. But now, with the support of a National Institute on Drug Abuse Avenir Award, part of the National Institutes of Health (NIH) Director's New Innovator (DP2) Award Program, researchers at the Lewis Katz School of Medicine at Temple University hope to gain new insight into the relationship between HIV and heart disease, as well as the effect of substance use on this relationship.

The DP2 award – a first for Temple – is highly competitive, supporting transformative research in high-priority areas designated by the NIH. The funding, $2,377,500 spread over four years, will support studies led by Allison M. Andrews, PhD, Assistant Professor in the Department of Pathology and Laboratory Medicine at the Lewis Katz School of Medicine at Temple University. The research will focus specifically on elucidating the effects of HIV and cocaine use on the bone-marrow blood barrier, a physiological boundary that prevents immature blood cells from escaping the bone marrow.

“We are particularly interested in studying changes in the bone marrow vasculature, microenvironment, and stem cell niche that result from HIV and drugs, such as cocaine,” Dr. Andrews said.

Early-onset cardiovascular disease in people with HIV is associated with increased infiltration of immune cells into the blood vessel wall to form unstable plaques. These immune cells mature from hematopoietic stem cells (HSCs) in the bone marrow niche. It is perhaps no coincidence that the bone marrow also happens to be a reservoir of HIV.

Dr. Andrews and others suspect that HIV somehow alters the local marrow microenvironment and HSC development to ultimately facilitate differentiation of HSCs into activated immune cells. They hypothesize that cocaine, which exacerbates HIV pathology, may amplify the effects of HIV on the bone marrow, or it may enable HSC differentiation via an entirely different mechanism.

Dr. Andrews plans to investigate these ideas through the proposed development of a human bone marrow chip, in which human bone marrow stem cells are embedded in a gel matrix that essentially mimics the 3D nature of bone marrow tissue. Each chip is about the size of a USB flash drive. Using microCT and other advanced imaging techniques, Dr. Andrews and colleagues also plan to map the 3D architecture of the bone marrow vasculature of HIV-infected mice.

“Through these studies, we aim to create a new human 3D tissue-engineered model of the bone marrow vasculature for the study of HIV pathogenesis,” Dr. Andrews added. “The technology is also a promising tool for predictive modeling that could translate clinically into the development of novel strategies for the care of people with HIV who face cardiovascular disease.”

Research reported in this press release was supported by the National Institute on Drug Abuse of the National Institutes of Health under award number DP2DA056172. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

About the Lewis Katz School of Medicine
Founded in 1901, the Lewis Katz School of Medicine at Temple University attracts students and faculty committed to advancing individual and population health through culturally competent patient care, research, education, and service. The School confers the MD degree; MS and PhD degrees in Biomedical Science; the MA in Urban Bioethics; the MS in Physician Assistant studies; a certificate in Narrative Medicine; a non-degree post-baccalaureate program; several dual degree programs with other Temple University schools; continuing medical education programs; and in partnership with Temple University Hospital, 40 residency and fellowship programs for physicians. The School also manages a robust portfolio of publicly and privately funded transdisciplinary studies aimed at advancing the prevention, diagnosis, and treatment of disease -- with specialized research centers focused on heart disease, cancer, substance use disorder, metabolic disease, and other regional and national health priorities. To learn more about the Lewis Katz School of Medicine, please visit: medicine.temple.edu.


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.