Ferritin mediates epithelial cell-macrophage cross talk in acute kidney injury
University Of Alabama At Birmingham, Birmingham AL
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Abstract
DESCRIPTION (provided by applicant): Acute kidney injury (AKI) is often seen in the setting of multiple organ failure in critically ill patients. Lack of established therapeutic approaches to overcome AKI has led to unacceptably high incidence of morbidity and mortality in these patients. The molecular mechanisms that lead to AKI often have oxidative stress and inflammation as common pathogenic events. The kidney responds by prompt induction of its own antioxidant machinery including the highly inducible and anti-apoptotic heavy chain of the ferritin gene (FtH). FtH catalyzes the conversion of the reactive ferrous iron to ferric form thereby enabling safe sequestration of iron in the ferritin shell. Preliminary studies from our laboratory have shown that selective deletion of FtH in renal proximal tubules leads to increased structural and functional damage and macrophage accumulation following AKI. In addition, FtH expression in macrophages determines macrophage activation and polarization. The hypothesis of this proposal is that the cross talk between proximal tubules vs. macrophage FtH expression regulates the inflammatory response and the subsequent cascade of resolution of injury in response to IL-6, CSF-1 and MCP- 1. In aim 1, the deleterious effects of proximal tubule specific FtH deletion on kidney injury and macrophage accumulation and polarization in AKI will be determined. Aim 2 will test the hypothesis that FtH expression in macrophages will determine their potential to polarize towards distinct phenotypes and thereby regulate injury mediated cytotoxicity and fibrosis. Aim 3 will test the hypothesis that FtH mediates the cross-talk between kidney and macrophages through modulation of signaling cascades that facilitate macrophage recruitment and polarization. Elucidating the inherent signaling pathways modulated by protective genes such as FtH in the kidney and macrophages and its contribution to injury or repair is integral in defining new treatment modalities in the reparative processes following AKI. This project will also provide an intensive research training program in macrophage biology and cell signaling in AKI under guidance of an experienced mentoring team allowing the applicant to develop and launch an independent career in academic nephrology.
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