Abstract
Tacrolimus is an anticalcineurinic agent with potent immunosuppressive activity that has recently been shown to have the added benefit of reducing proteinuria in membranous nephropathy (MN) patients. However, its potential mechanisms remain unknown. To reveal the mechanism, rat cohorts were administered tacrolimus or vehicle from days 7 to 28 after the induction of passive Heymann nephritis (PHN). PHN induction resulted in heavy proteinuria and increased expression of desmin, a marker of injured podocytes. We also showed that the glomerular expression of angiopoietin-like-4 (Angptl4) was markedly upregulated in PHN rats and human MN followed by an increase in urine Angptl4 excretion. In addition, increased Angptl4 expression may be related to podocyte injury and proteinuria. Furthermore, upregulated Angptl4 expression primarily colocalized with podocytes rather than endothelial or mesangial cells, indicating that podocytes may be the source of Angptl4, which then gradually migrated to the glomerular basement membrane over time. However, tacrolimus treatment markedly reduced glomerular and urinary Angptl4, accompanied by a reduction in the established proteinuria and the promotion of podocyte repair. Additionally, glomerular immune deposits and circulating IgG levels induced by PHN clearly decreased following tacrolimus treatment. In conclusion, this is the first demonstration that the calcineurin inhibitor tacrolimus can reduce Angptl4 in podocytes accompanied by a decrease in established proteinuria and promotion of podocyte repair in MN.
Highlights
Membranous nephropathy (MN) is one of the leading causes of primary nephrotic syndrome regardless of race, and spontaneous remissions occur, MN is still an important cause of chronic kidney failure [1,2]
Tacrolimus treatment was started on day 7 when heavy proteinuria had been established in passive Heymann nephritis (PHN) rats
Proteinuria significantly reduced on days 14 and 21 compared with the untreated group (Fig. 1A)
Summary
Membranous nephropathy (MN) is one of the leading causes of primary nephrotic syndrome regardless of race, and spontaneous remissions occur, MN is still an important cause of chronic kidney failure [1,2]. MN is regarded as a podocytopathy, which has the following characteristics: subepithelial immune deposits, podocyte foot process effacement and an expanding glomerular basement membrane (GBM). Recent clinical trials showed that tacrolimus was able to induce remission and reduce the risk of worsening renal function in a considerable number of MN patients [6,7]. Tacrolimus has been shown to inhibit T cells and to prevent B cell mitogenesis [8,9]. This property may partially explain the therapeutic effects of tacrolimus in autoimmune diseases and transplantation [10,11]. Exploring the downstream targets of the mechanism by which tacrolimus acts on MN may provide new options for MN clinical therapy
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