Study Identifies New Stem Cell-like Population Where HIV Persists in Spite of Treatment

Mon, 01/13/2014 - 10:55am

Although antiviral therapy against HIV suppresses viral replication and allows infected individuals to live relatively healthy lives for many years, the virus persists in the body, and replication resumes if treatment is interrupted.  Now investigators from Massachusetts General Hospital (MGH) and the Ragon Institute of MGH, MIT and Harvard may have found the location where the virus hides – in a small group of recently identified T cells with stem cell-like properties.

“Most human cells are short lived, so it has been unclear how HIV manages to stick around for decades in spite of very effective antiviral treatment,” says Mathias Lichterfeld, MD, of the MGH Infectious Disease Division, corresponding author of the report receiving advance online publication in Nature Medicine.  “This question led to the hypothesis that HIV might infect stem cells – the most long-lasting cells in the body – but traditional organ-specific stem cells, even those that give rise to all immune and blood cells, are resistant to HIV infection.  We have discovered that a new group of T cells, called T memory stem cells, are susceptible to HIV and likely represent the longest lasting cellular niche for the virus.”

HIV has such a devastating impact on the human immune system because it infects the CD4-positive T cells that normally direct and support the infection-fighting activities of other immune cells.  Several subtypes of CD4 T cells have different functions and are all capable of being infected by HIV although antiviral treatment keeps the virus in those cells from replicating. Most of these CD4 T cells are short-lived and die relatively soon. What is distinct about CD4 T memory stem cells is their ability to live for decades, while giving rise to several subgroups of T cells. As such, HIV-1 infected T memory stem cells can continuously regenerate new HIV-1 infected cells, and fuel the fire of HIV-1 persistence in the human body.

The MGH/Ragon team found that TSCM cells express both CD4 and CCR5 – the receptor proteins used by HIV to enter cells – suggesting that these long-lived cells could be the long-sought HIV reservoir.  Indeed, the research team found that T memory stem cells  can be readily infected with HIV, which was unexpected, given that traditional organ-specific stem cells are resistant to HIV-1. Importantly, the investigators found that levels of HIV DNA in  patients receiving long-term antiviral treatment were highest in CD4 T memory stem cells.  Testing blood samples that had been taken from patients soon after initial infection and several years later revealed that the viral sequences found in T  memory stem  cells after 6 to 10 years of treatment were similar to those found in circulating T cells soon after infection, indicating that HIV had persisted relatively unchanged in TSCM cells. In addition, the amount of HIV DNA in TSCM cells remained relatively stable over time, even after long-term antiviral treatment caused levels to drop in other T cell subsets.

“Our findings suggest that novel, specific interventions will have to be designed to target these cells,” says Lichterfeld, an Assistant Professor of Medicine at Harvard Medical School.  “Methods of inhibiting stem cell pathways are being studied to eliminate cancer stem cells – persistent cells that are responsible for tumor recurrence after conventional treatments kill proliferating tumor cells. We are now investigating whether any of the drugs developed to target cancer stem cells might be effective against HIV-infected T memory stem cells.  Identifying the reservoirs for HIV persistence is a critical step toward developing interventions that could induce a long-term remission of HIV infection without the need for antiviral medication, or possibly eliminate the virus entirely.  Although a real cure for HIV has been elusive, it is not impossible.”

Source: Ragon Institute of MGH, MIT and Harvard



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