RESUMO
Degradation of podocyte structural integrity and function are hallmarks of proteinuric chronic kidney disease. In vivo, injury of podocytes manifests itself in the form of disruption of foot process morphology and associated cytoskeletal architecture, de-differentiation, and loss of adhesion to the glomerular basement membrane. Given the critical role played by this highly specialized cell type in maintaining glomerular filtration, there is a need for improved physiologically relevant cellular models that enable detection of disease-relevant indicators of podocyte perturbation. We have addressed this need by evaluating a subclone of conditionally immortalized human podocytes through quantitative benchmarking against freshly isolated primary human podocytes. Benchmarking was performed by measuring key phenotypic parameters, expression of podocyte specific proteins and multiparametric responses to stressors that model different aspects of podocyte perturbation. We subsequently employed the subcloned cells to profile the protective activity of structurally distinct adenosine kinase inhibitors. Our results support the translatability of our cellular model and set the stage for broader screening of renoprotective compounds with a view to eventually treat proteinuric kidney disease.
Assuntos
Citoproteção/efeitos dos fármacos , Podócitos/efeitos dos fármacos , Insuficiência Renal Crônica/patologia , Avaliação Pré-Clínica de Medicamentos , Regulação da Expressão Gênica/efeitos dos fármacos , Humanos , FenótipoRESUMO
Adenosine (ADO) is an important regulatory purine nucleoside that accumulates at sites of inflammation and tissue injury including in diseases associated with renal pathology. Endogenous levels of ADO may be increased by inhibiting the ADO-metabolizing enzyme, ADO kinase (AK). AK inhibitors have demonstrated protection in rodent models of diabetic nephropathy. To further investigate AK inhibition as a potential mechanism for renal protection, A-306989, a potent non-nucleoside AK inhibitor, was examined in both in vitro and in vivo assays of renal injury. A-306989 prevented podocyte damage (disruption of actin cytoskeleton) and increased podocyte survival following puromycin aminonucleoside (PAN) application in both mouse and human conditionally immortalized podocytes. Prophylactic oral administration of A-306989 (1.5, 5 and 15mg/kg) reduced proteinuria in a dose-dependent manner and repressed pro-inflammatory/fibrotic gene up-regulation; A-306989 was also efficacious when administered two days following the PAN-insult. A-306989 (10 and 30mg/kg) also significantly reduced proteinuria and macrophage infiltration in a rat model of glomerulonephritis. Finally, A-306989 (15 and 50mg/kg) reduced the expression levels of pro-inflammatory/fibrotic genes, and reduced macrophage infiltration (50mg/kg), but did not affect the deposition of interstitial collagen in fibrotic kidneys from mice with unilateral ureter obstruction. A-306989 also had beneficial actions on "quality of life" measures including improving body weight loss. Thus, these data indicate that enhancement of endogenous ADO levels by A-306989 can positively modulate renal pathology and mimic some of the previously reported beneficial actions of ADO A2A receptor agonists.