Abstract Compromised intestinal permeability leads to release of epithelial cytokines and antigenic exposure to underlying immune cells. Cytokine release by immune cells in turn perturbs intercellular junction proteins that are crucial for formation of an intact intestinal epithelial barrier. Our data suggest that co-incubation of IECs with HIV-1 infected T cells results in a Nef dependent loss of IEC barrier integrity due to increased epithelial expression of TNFa. Past studies, including work from our group, suggest that pro-inflammatory cytokines disrupt IEC function with preliminary data indicating that TNFa plays an important role HIV-associated intestinal pathology. Interestingly, our research has identified pro-repair functions of TNFa in wounded IEC. At initial glance, intestinal epithelial barrier disruption and enhanced wound repair seem disconnected and even contradictory, but these effects may be explained by signaling mechanisms that result in loosening of epithelial junctions to enhance migration to repair injuries resulting from the inflammatory response. Thus, a leaky barrier as well as increased migration of IEC are interconnected functions triggered by soluble mediators such as TNFa. As the parent grant focuses on barrier dysfunction, this supplemental proposal aims to look at the complementary effects of inflammatory mediators on IEC migration as it relates to repair. The overarching hypothesis is that cytokines such as TNFa impair barrier by altering expression of junctional proteins which in turn increases permeability while promoting IEC migration