Novel Lab Test Detects HIV Strains in Africa, Paving Way for Global Cure
The study helps fill a major gap in human immunodeficiency virus (HIV) research.
Complete the form below to unlock access to ALL audio articles.
A multinational team led by Weill Cornell Medicine investigators developed a test that will help measure the persistence of HIV in people affected by viral strains found predominantly in Africa—a vital tool in the search for an HIV cure that will benefit patients around the world.
The study, published in Nature Communications on July 2, helps fill a major gap in human immunodeficiency virus (HIV) research. Most HIV studies have focused on strains circulating in Western countries, predominantly in men who have sex with men affected by subtype B. Few studies have examined strains circulating in Africa, where women are disproportionately affected.
“HIV cure research tends to focus on viral strains circulating in developed countries, but to achieve a cure that is globally applicable, we must study viral strains that are affecting other regions of the world,” said lead author Dr. Guinevere Lee, assistant professor of virology in medicine in the Division of Infectious Diseases and assistant professor of microbiology and immunology at Weill Cornell Medicine.
Want more breaking news?
Subscribe to Technology Networks’ daily newsletter, delivering breaking science news straight to your inbox every day.
Subscribe for FREEThe findings show—like other studies in developed countries—that HIV strains circulating in Africa establish viral reservoirs in the human body. Although antiretroviral therapy can reduce HIV in the blood to an undetectable level, these dormant reservoirs continue to survive. They contain a large number of defective proviral DNA genomes which can’t produce new infectious viruses, but a small number of proviruses remain genetically intact and ready to produce active viruses if antiretroviral treatment is interrupted.
The large proportion of defective viral genomes obscures researchers’ attempts to accurately quantify the intact proviruses. “We are looking for a needle in a haystack: To achieve an HIV cure, we need to first find out whether any genome-intact proviruses remain in the body during antiretroviral treatment. Our new assay allows us to do this. Then we need to target and eliminate the intact DNA capable of producing new viruses,” Dr. Lee explained.
Broadening the Lens of HIV Research with a New Assay
Dr. Lee and her colleagues analyzed DNA from immune cells called CD4+ T cells, where viral DNA hides, of 16 women and 7 men receiving antiretroviral HIV treatment in Uganda. Genetic sequencing of the virus revealed two predominant HIV-1 subtypes: A1 and D (a notoriously aggressive strain). The study also identified viral hybrids of A1 and D.
The team then modified existing laboratory tests that identify HIV subtype B proviruses to detect proviruses that are subtypes A1 and D. “The new assay we’ve developed will help researchers home in on the intact proviral genomes relevant to HIV cure research for patients affected by these under studied strains,” Dr. Lee said.
Dr. Lee and her multinational, multi-institution collaborators are already using the new assay to study long-term viral persistence in Uganda. Their findings show that the composition of the HIV proviral genomic landscape is broadly comparable between subtypes A1, D and B suggesting that approaches to target intact HIV reservoirs in Africa will face similar “needle in a haystack” challenges as in North America and Europe. Future studies will also need to evaluate differences in non-B subtypes to understand whether subtype-specific factors impact persistence, reactivation or clearance in viral reservoirs.
Reference: Lee GQ, Khadka P, Gowanlock SN, et al. HIV-1 subtype A1, D, and recombinant proviral genome landscapes during long-term suppressive therapy. Nat Comm. 2024;15(1):5480. doi: 10.1038/s41467-024-48985-9
This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source. Our press release publishing policy can be accessed here.