Neurocognitive impairments in HIV-infected individuals, collectively known as HIV-Associated Neurocognitive Impairments (or HAND) remains a significant problem in the era of Combined Antiretroviral Therapy (CART). In many HIV-infected individuals there is evidence of accelerated aging, including aberrant processing of amyloid precursor protein (APP). These disruptions seem to result in accumulations of pathogenic forms of amyloid-? (A?) in brain and are thus likely to also decrease the formation of soluble APP? (sAPP?), an important neurotrophic peptide. Our preliminary data suggest that accumulations of sphingolipids and complex glycolipids in intracellular compartments accelerates A? formation by enhancing the activity of ?- and ?- secretases (that process APP to A?), and by perturbing the intracellular trafficking / clearance of A?. Previously we have documented accumulations of multiple sphingolipid species in HIV-infected individuals. These combined findings prompted us to determine if the accumulations of sphingolipid products in endosomes, lysosomes and/or autophagosomes are associated with aberrant APP processing, increased A? deposition and decreased sAPP? in the setting of HIV-infection. In this application we propose a comprehensive approach to address this question, using human brain tissues, cellular/molecular approaches, and transgenic model systems to determine if increased brain levels of these lipid metabolites shifts APP processing to a more amyloidogenic (A?) and less trophic (sAPP?) pheotype and if interventions that target sphingolipid metabolism can reverse these effects. ) )
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