#1706 LncRNA EGOT regulates hypoxia-induced mitophagy through the EGOT/PARKIN axis in renal tubular cells

Abstract

Abstract Background and Aims The activation of mitophagy plays a crucial role in hypoxia signaling during acute kidney injury (AKI). The process involves coordinating the action of coding and non-coding RNA expressions to eliminate damaged mitochondria selectively. However, the specifics of how long non-coding RNAs (lncRNAs) regulate mitophagy and mitochondria biogenesis remain unclear. This study explores the impact of lncRNA called EGOT (Eosinophil granule ontogeny transcript) on mitophagy and mitochondria biogenesis in renal tubular cells under hypoxia. Method Overexpression and knockdown lncRNA-EGOT were evaluated. Mitophagy proteins (PINK1, p-PARKIN, BNIP3, LC3), mitochondria dynamics and biogenesis related proteins (Drp-1, MFN-1, PGC-1α, SDHA, SOD1) were determined through western blot analysis. Immunofluorescence studies of p-PARKIN mitochondrial translocation and LC3/TOMM20 localization were determined using confocal analysis. Results Hypoxia upregulated mitophagy proteins, mitochondria dynamics and biogenesis related proteins expressions, and mitophagosome in HK-2 cells. LncRNA EGOT expression was also significantly downregulated in renal tubular cells during hypoxia-induced mitophagy. Overexpression studies of hypoxia-regulated lncRNA- EGOT significantly downregulated p-Parkin, Parkin, LC3II expression, and LC puncta mitophagosome formation, while EGOT knockdown reversed the suppression of mitophagy. LncRNA EGOT regulates PGC-1α through parkin/paris expression. Conclusion Our study shows novel findings on the lncRNA-EGOT in hypoxia-induced mitophagy regulation in the renal tubular cells. Thus, downregulated lncRNA-EGOT expression with subsequent mitophagy activation is critical for hypoxia-induced mitophagy regulation through the EGOT/PARKIN axis.