Novel mechanism for tubular injury in nephropathic cystinosis
Copyright policy )Novel mechanism for tubular injury in nephropathic cystinosis
Understanding the unique susceptibility of the human kidney to pH dysfunction and injury in cystinosis is paramount to developing new therapies to preserve renal function. Renal proximal tubular epithelial cells (RPTECs) and fibroblasts isolated from patients with cystinosis were transcriptionally profiled. Lysosomal fractionation, immunoblotting, confocal microscopy, intracellular pH, TEM, and mitochondrial stress test were performed for validation. CRISPR, CTNS -/- RPTECs were generated. Alterations in cell stress, pH, autophagic turnover, and mitochondrial energetics highlighted key changes in the V-ATPases in patient-derived and CTNS -/- RPTECs. ATP6V0A1 was significantly downregulated in cystinosis and highly co-regulated with loss of CTNS . Correction of ATP6V0A1 rescued cell stress and mitochondrial function. Treatment of CTNS -/- RPTECs with antioxidants ATX induced ATP6V0A1 expression and improved autophagosome turnover and mitochondrial integrity. Our exploratory transcriptional and in vitro cellular and functional studies confirm that loss of Cystinosin in RPTECs, results in a reduction in ATP6V0A1 expression, with changes in intracellular pH, mitochondrial integrity, mitochondrial function, and autophagosome-lysosome clearance. The novel findings are ATP6V0A1’s role in cystinosis-associated renal pathology and among other antioxidants, ATX specifically upregulated ATP6V0A1, improved autophagosome turnover or reduced autophagy and mitochondrial integrity. This is a pilot study highlighting a novel mechanism of tubular injury in cystinosis.
- University of California, San Francisco United States
- University of California Division of Agriculture and Natural Resources United States
autophagy, Vacuolar Proton-Translocating ATPases, Kidney Disease, Biomedical and clinical sciences, Amino Acid Transport Systems, QH301-705.5, 1.1 Normal biological development and functioning, kidney disease, Science, Medical Physiology, Neutral, Cystinosis, Kidney Tubules, Proximal, genetic renal, cell biology, CKD, Autophagy, 2.1 Biological and endogenous factors, Humans, human, Biology (General), Cells, Cultured, Biomedical and Clinical Sciences, Q, R, Health sciences, Proximal, Epithelial Cells, Cell Biology, Biological Sciences, Fibroblasts, Hydrogen-Ion Concentration, Mitochondria, Biological sciences, Kidney Tubules, Amino Acid Transport Systems, Neutral, Medicine, lysosomal storage disorder, Biochemistry and Cell Biology, Lysosomes
autophagy, Vacuolar Proton-Translocating ATPases, Kidney Disease, Biomedical and clinical sciences, Amino Acid Transport Systems, QH301-705.5, 1.1 Normal biological development and functioning, kidney disease, Science, Medical Physiology, Neutral, Cystinosis, Kidney Tubules, Proximal, genetic renal, cell biology, CKD, Autophagy, 2.1 Biological and endogenous factors, Humans, human, Biology (General), Cells, Cultured, Biomedical and Clinical Sciences, Q, R, Health sciences, Proximal, Epithelial Cells, Cell Biology, Biological Sciences, Fibroblasts, Hydrogen-Ion Concentration, Mitochondria, Biological sciences, Kidney Tubules, Amino Acid Transport Systems, Neutral, Medicine, lysosomal storage disorder, Biochemistry and Cell Biology, Lysosomes
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