Abstract
End‐stage renal disease, the final stage of all chronic kidney disorders, is associated with renal fibrosis and inevitably leads to renal failure and death. Transition of tubular epithelial cells (TECs) into mesenchymal fibroblasts constitutes a proposed mechanism underlying the progression of renal fibrosis and here we assessed whether protease‐activated receptor (PAR)‐1, which recently emerged as an inducer of epithelial‐to‐mesenchymal transition (EMT), aggravates renal fibrosis. We show that PAR‐1 activation on TECs reduces the expression of epithelial markers and simultaneously induces mesenchymal marker expression reminiscent of EMT. We next show that kidney damage was reduced in PAR‐1‐deficient mice during unilateral ureter obstruction (UUO) and that PAR‐1‐deficient mice develop a diminished fibrotic response. Importantly, however, we did hardly observe any signs of mesenchymal transition in both wild‐type and PAR‐1‐deficient mice suggesting that diminished fibrosis in PAR‐1‐deficient mice is not due to reduced EMT. Instead, the accumulation of macrophages and fibroblasts was significantly reduced in PAR‐1‐deficient animals which were accompanied by diminished production of MCP‐1 and TGF‐β. Overall, we thus show that PAR‐1 drives EMT of TECs in vitro and aggravates UUO‐induced renal fibrosis although this is likely due to PAR‐1‐dependent pro‐fibrotic cytokine production rather than EMT.
Highlights
End‐stage renal disease (ESRD) is considered to be the final stage of chronic kidney disease, independent of the underlying cause.[1]
As epithelial‐to‐mesenchymal transition (EMT) is postulated to contribute to the development of renal fibrosis[27], we aimed to elucidate the relevance of protease‐activated receptor (PAR)‐1, a proposed mediator of EMT, during renal fibrosis
We show that PAR‐1 activation induces EMT of proximal tubular epithelial cells (TECs) in vitro and that PAR‐1 deficiency limits renal fibrosis after experimental ureter obstruction (UUO)
Summary
End‐stage renal disease (ESRD) is considered to be the final stage of chronic kidney disease, independent of the underlying cause.[1]. Epithelial to mesenchymal transition (EMT) of tubular epithelial cells (TECs), a phenotypic conversion programme characterized by the loss of epithelial markers and gain of mesenchymal features, is considered one of the mechanisms contributing to the onset and. Based on the key role of PAR‐1 in fibroproliferative disease, it is tempting to speculate that PAR‐1 may be a key factor driving the pathogenesis of renal fibrosis. We challenged this hypothesis by evaluating renal fibrosis in wild‐type and PAR‐1‐deficient mice subjected to the well‐established murine unilateral ureter obstruction (UUO) model
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