calpain has been researched along with Renal-Insufficiency* in 2 studies
2 other study(ies) available for calpain and Renal-Insufficiency
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Podocyte-associated talin1 is critical for glomerular filtration barrier maintenance.
Podocytes are specialized actin-rich epithelial cells that line the kidney glomerular filtration barrier. The interface between the podocyte and the glomerular basement membrane requires integrins, and defects in either α3 or β1 integrin, or the α3β1 ligand laminin result in nephrotic syndrome in murine models. The large cytoskeletal protein talin1 is not only pivotal for integrin activation, but also directly links integrins to the actin cytoskeleton. Here, we found that mice lacking talin1 specifically in podocytes display severe proteinuria, foot process effacement, and kidney failure. Loss of talin1 in podocytes caused only a modest reduction in β1 integrin activation, podocyte cell adhesion, and cell spreading; however, the actin cytoskeleton of podocytes was profoundly altered by the loss of talin1. Evaluation of murine models of glomerular injury and patients with nephrotic syndrome revealed that calpain-induced talin1 cleavage in podocytes might promote pathogenesis of nephrotic syndrome. Furthermore, pharmacologic inhibition of calpain activity following glomerular injury substantially reduced talin1 cleavage, albuminuria, and foot process effacement. Collectively, these findings indicate that podocyte talin1 is critical for maintaining the integrity of the glomerular filtration barrier and provide insight into the pathogenesis of nephrotic syndrome. Topics: Actin Cytoskeleton; Animals; Calpain; Cell Adhesion; Cells, Cultured; Focal Adhesions; Glomerular Filtration Barrier; Humans; Integrin beta1; Mice; Mice, Knockout; Nephrotic Syndrome; Podocytes; Proteinuria; Proteolysis; Renal Insufficiency; Talin | 2014 |
Calpain inhibition but not reticulum endoplasmic stress preconditioning protects rat kidneys from p-aminophenol toxicity.
p-Aminophenol (pAP, 225 mg/kg) administration to rats induced renal failure and has been associated with markers of endoplasmic reticulum (ER) stress, as well as calpain and caspase-12 activation in kidneys. To determine the importance of ER stress and calpain during pAP-induced nephrotoxicity, rats were pretreated with low, nontoxic, doses of ER stress inducers or with the selective calpain inhibitor PD150606 (3 mg/kg). Prior ER stress induced by tunicamycin and oxidized dithiothreitol did not result in protection against renal failure, but PD150606 administration was protective and decreased significantly the rise in creatinine and blood urea nitrogen observed after 24-h post-pAP administration. pAP-induced XBP1 upregulation was not modified by calpain inhibition, but a trend to lower GRP94 induction was determined, suggesting that pAP-induced ER stress was mostly calpain independent. In contrast, pAP-induced caspase-12 cleavage products were significantly decreased with PD150606 pretreatment, demonstrating that caspase-12 activation was calpain dependent. This study reveals the importance of calpain in pAP-induced renal failure. Further research with other nephrotoxicants needs to be performed to determine if calpain activation is a common feature of drug-induced renal failure. Topics: Acrylates; Aminophenols; Animals; Anti-Bacterial Agents; Blood Urea Nitrogen; Calpain; Caspase 12; Creatinine; Disease Models, Animal; Dithiothreitol; Endoplasmic Reticulum; Enzyme Inhibitors; Kidney; Kidney Tubules; Male; Mutagens; Necrosis; Oxidation-Reduction; Oxidative Stress; Rats; Rats, Sprague-Dawley; Renal Insufficiency; Tunicamycin | 2007 |