. This REVISED collaborative R01 application addresses the impact of cytomegalovirus (CMV) on the gastrointestinal mucosa in chronic HIV infection. We hypothesize that CMV infection contributes to the intestinal barrier dysfunction and consequent immune activation that persist in chronic HIV infection despite suppressive antiretroviral therapy (ART).
In Aim 1, based on strong preliminary studies, we hypothesize that CMV persistence in the gastrointestinal tract results in part from the failure of CMV-specific CD8+ T-cells to localize to this tissue. To determine the breadth and functionality of CMV-specific T-cell responses in gut, we will measure responses in colorectal tissue from participants in the SCOPE cohort at UCSF. To determine the effects of CMV infection on antigen presentation in gut, we will employ the rhesus macaque model of CMV (RhCMV) and SIVmac to study interactions between mucosal dendritic cells (DC) and T-cells ex vivo.
In Aim 2, we will leverage an externally-funded clinical trial (AIDS Clinical Trials Group Study #A5383) to directly test the hypothesis that asymptomatic CMV replication contributes significantly to microbial translocation in treated HIV disease. We will determine the effects of suppression of CMV replication with letermovir on systemic biomarkers of microbial translocation as well as immune activation and gut barrier integrity assessed directly in gut mucosal tissues. Taken together, these studies will determine the contributions of CMV to immune activation in HIV disease, and the mechanistic bases for these effects.
Aim 3 leverages a second ACTG study (#A5355) to determine whether a modified vaccine Ankara (MVA)-based CMV vaccine can increase systemic and/or gut- homing and mucosal CMV-specific T-cell responses in treated HIV infection. Failure of a therapeutic anti-CMV vaccine to elicit gut-homing CMV-specific T-cell responses and to reduce mucosal CMV shedding may compromise its ability to reduce systemic immune activation in treated HIV infection and would highlight the need for optimization of vaccination strategies to improve mucosal responses. (Note:
Aims 2 and 3 do not meet the NIH definition of a clinical trial; the ancillary studies in these Aims only add additional measures to pre-existing trials).
Although antiretroviral therapy (ART) is now widely available, people with HIV continue to have shorter life expectancy compared to the general population. We previously found that gut barrier dysfunction predicted mortality in persons with ART-suppressed HIV and a history of AIDS. Cytomegalovirus (CMV), a common coinfection in HIV, disrupts the gut barrier, and a recent clinical trial showed that a drug active against CMV reduced harmful immune activation in HIV-infected participants. In this project, we will study the role of CMV in gut barrier dysfunction and immune activation. We predict that treatment for CMV infection will help restore gut barrier function and improve outcomes for HIV-infected individuals on ART.
