Abstract
Renal tubular epithelial cells (TECs) undergoing partial epithelial-mesenchymal transition (pEMT) during renal fibrosis has been recognized as a featuring and detrimental event. However, the mechanism for redirecting the cell fate of pEMT remains unclear. Here we mapped the temporal expression trajectories of a series of EMT-related molecules in renal fibrosis. It revealed a unique expression profile of N-cadherin of initial rising and late dropdown, which is distinct from that of other mesenchymal markers. The transcription factor Foxk1, which serves as a negative regulator of the N-cadherin gene, was induced by TGF-β1 but was tightly regulated in the presence of JNK-associated leucine zipper protein (JLP). The loss of JLP resulted in Foxk1 induction, leading to N-cadherin downregulation and compromised cell viability. We propose a novel axis consisting of JLP/Foxk1/N-cadherin in shaping the EMT program and suggest JLP as the checkpoint of the EMT continuum during renal fibrosis progression.
Keywords:
Biological sciences; Health sciences; Molecular biology; Molecular mechanism of gene regulation; Molecular medicine.