Abstract
A growing body of evidence suggests a role of proteolytic enzymes in the development of diabetic nephropathy. Cathepsin C (CatC) is a well-known regulator of inflammatory responses, but its involvement in podocyte and renal injury remains obscure. We used Zucker rats, a genetic model of metabolic syndrome and insulin resistance, to determine the presence, quantity, and activity of CatC in the urine. In addition to the animal study, we used two cellular models, immortalized human podocytes and primary rat podocytes, to determine mRNA and protein expression levels via RT-PCR, Western blot, and confocal microscopy, and to evaluate CatC activity. The role of CatC was analyzed in CatC-depleted podocytes using siRNA and glycolytic flux parameters were obtained from extracellular acidification rate (ECAR) measurements. In functional analyses, podocyte and glomerular permeability to albumin was determined. We found that podocytes express and secrete CatC, and a hyperglycemic environment increases CatC levels and activity. Both high glucose and non-specific activator of CatC phorbol 12-myristate 13-acetate (PMA) diminished nephrin, cofilin, and GLUT4 levels and induced cytoskeletal rearrangements, increasing albumin permeability in podocytes. These negative effects were completely reversed in CatC-depleted podocytes. Moreover, PMA, but not high glucose, increased glycolytic flux in podocytes. Finally, we demonstrated that CatC expression and activity are increased in the urine of diabetic Zucker rats. We propose a novel mechanism of podocyte injury in diabetes, providing deeper insight into the role of CatC in podocyte biology.
Highlights
Increased activity of proteolytic enzymes has been suggested to promote injury to the renal filtration barrier and renal function [1]
Using Zucker rats (Crl: ZUC-Leprfa/fa), which are a popular model of insulin resistance and metabolic syndrome, we show that the quantity and activity of Cathepsin C (CatC) in urine can serve as a marker of renal damage
The obese (ZO) rats used in experiments (12 weeks old) were slightly hyperglycemic (Supplemental Table 1), but almost all of them exhibited considerable polyuria compared to their lean counterparts (ZL)
Summary
Increased activity of proteolytic enzymes has been suggested to promote injury to the renal filtration barrier and renal function [1]. Proteases play an important role in the physiology and function of podocytes, and some of them (cathepsin L, D, calpain, caspase 1, metalloproteases 2 and 9, dipeptidyl peptidase 4 [DPP-4]) are well-described in the literature [2,3,4,5,6]. In addition to a range of proteolytic enzymes, podocytes express protease-activated receptors (PARs) 1–4, and the Abbreviations: BSA, Bovine Serum Albumin; CatC, Cathepsin C; DMEM, Dulbecco's Modified Eagle Medium; ECAR, Extracellular Acidification Rate; FBS, Fetal Bovine Serum; GBM, Glomerular Basement Membrane; GLUT4, Facilitated Glucose Transporter member 4; HG, high glucose concentration medium (30 mM); PFA, paraformaldehyde; PMA, Phorbol 12-Myristate 13-Acetate; SFM, Serum-Free Medium; SG, standard glucose concentration medium (10 mM)
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