Abstract
Diabetes could aggravate ischemia-reperfusion (I/R) injury, but the underlying mechanism is unclear. In the present study, we aimed to investigate whether diabetes exacerbates renal I/R injury and its possible mechanism. In vitro, HK-2 cells under normal or high glucose conditions were subjected to hypoxia (12 h) followed by reoxygenation (3 h) (H/R). Cell viability, intracellular ATP content, mitochondrial membrane potential, reactive oxygen species production, and apoptosis were measured. In vivo, streptozotocin-induced diabetic and nondiabetic rats were subjected to I/R. Renal pathology, function, and apoptosis were evaluated by hematoxylin and eosin staining, transmission electron microscopy, and Western blot analysis. Compared with the normal glucose + H/R group, mitochondrial function (ATP, mitochondrial membrane potential, and reactive oxygen species) and mitophagy were reduced in the high glucose + H/R group, as was expression of phosphatase and tensin homolog-induced putative kinase 1 (PINK1) and Parkin. Also, cells in the high glucose + H/R group exhibited more apoptosis compared with the normal glucose + H/R group, as assessed by flow cytometry, TUNEL staining, and Western blot analysis. Compared with normal rats that underwent I/R, diabetic rats that underwent I/R exhibited more severe tubular damage and renal dysfunction as well as expression of the apoptotic protein caspase-3. Meanwhile, diabetes alleviated mitophagy-associated protein expression in rats subjected to I/R, including expression of PINK1 and Parkin. Transmission electron microscopy indicated that the mitophagosome could be hardly observed and that mitochondrial morphology and structure were obviously damaged in the diabetes + I/R group. In conclusion, our results, for the first time, indicate that diabetes could aggravate I/R injury by repressing mitochondrial function and PINK1/Parkin-mediated mitophagy in vivo and in vitro.
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