Impact of Treatment on Brain Integrity in the Earliest Stages of HIV Infection
Paul, Robert H.    Valcour, Victor   
University of Missouri-St. Louis, Saint Louis, MO, United States

This study addresses a critical gap in the field of HIV neuropathogenesis. Previous investigations of brain integrity during the earliest stages of infection describe two opposing neuroimaging signatures of disease. The inconsistency likely reflects the challenges inherent in conducting this work in the US given the limited access to treatment-nave individuals in early disease stages (Fiebig I-V). Leveraging a highly unique cohort of acutely infected individuals (AHI) in Thailand, our preliminary data reveals intact brain structure and function in treatment- nave individuals infected for less than two weeks. However, after two years of suppressive combination antiretroviral therapy (cART) initiated within weeks of infection, neuroimaging abnormalities develop in the context of suppressive cART. Further, the degree of brain impairment corresponds to increased levels of monocytes expressing receptors involved in CNS migration and CSF levels of neuronal dysfunction. In this study we will answer the critical question of whether cART is sufficient to halt the detrimental impact of HIV on the brain when initiated within weeks of infection, or whether the brain abnormalities observed in our preliminary analyses progress beyond expectations for HIV- controls despite otherwise successful treatment. This study will overcome limitations in the existing literature because all participants in this study will start cART within days of viral exposure. This work is timely and builds on funded studies that will substantially leverage costs of data acquisition. We will examine longitudinal multimodal imaging outcomes (resting state fMRI, diffusion tensor imaging, and structural volumetrics) of AHI (n=60) as well as enrollment and data capture from demographically-similar individuals with chronic HIV infection (CHI; n=40) and HIV- controls (n=40). A mixed model design will determine if individuals with AHI develop brain injury similar to CHI despite suppressive cART and identify key mechanistic predictors to the evolution of brain abnormalities. Confirmation of our preliminary data demonstrating progressive brain abnormalities despite initiation of cART during the earliest possible period of infection would provide a strong argument that treatment administered under ideal clinical circumstances does not prevent the onset of brain abnormalities. Additionally, evidence of persistent neural injury despite cART instituted during AHI would identify key mechanisms of HIV neuropathogenesis and potential high-impact targets for clinical interventions.

Public Health Relevance

The proposed study will leverage an unprecedented opportunity to overcome limitations of previous studies of early stage HIV neuropathogenesis. We will examine brain integrity within weeks of initial viral exposure and prior to initiation of combination antiretroviral therapy (cART). Our preliminary data reveals normal brain structure and function during the acute infection period, with new evidence of progressive brain disruption that corresponds to monocyte subpopulations and CSF markers of brain damage. The proposed study will determine the link between these progressive brain impairments within the context of cART using a mixed-model design. Evidence of persistent neural injury despite cART instituted during acute infection will highlight the importance of adjuvant treatment to improve neurological outcomes regardless of HIV disease stage.