Abstract
The evidence that gene mutations in the polarity determinant Crumbs homologs-2 (CRB2) cause congenital nephrotic syndrome suggests the functional importance of this gene product in podocyte development. Because another isoform, CRB3, was reported to repress the mechanistic/mammalian target of the rapamycin complex 1 (mTORC1) pathway, we examined the role of CRB2 function in developing podocytes in relation to mTORC1. In HEK-293 and MDCK cells constitutively expressing CRB2, we found that the protein localized to the apicolateral side of the cell plasma membrane and that this plasma membrane assembly required N-glycosylation. Confocal microscopy of the neonate mouse kidney revealed that both the tyrosine-phosphorylated form and non-phosphorylated form of CRB2 commence at the S-shaped body stage at the apicolateral side of podocyte precursor cells and move to foot processes in a capillary tuft pattern. The pattern of phosphorylated mTOR in developing podocytes was similar to that of CRB2 tyrosine phosphorylation. Additionally, the lack of a tyrosine phosphorylation site on CRB2 led to the reduced sensitivity of mTORC1 activation in response to energy starvation. CRB2 may play an important role in the mechanistic pathway of developing podocytes through tyrosine phosphorylation by associating with mTORC1 activation.
Highlights
Mature kidney glomeruli possess a specific ultrafiltration barrier that is composed of fenestrated endothelial cells, a thick basement membrane, and visceral epithelial cells termed podocytes
A mouse glomerular sample was used as a positive control and contained Crb2 transcript, whereas the presence of this transcript in cultured podocytes was not obvious (S1A Fig)
Our goal in this study was to uncover the molecular basis of the involvement of Crumbs homologs-2 (CRB2) in the cellular processes of podocyte differentiation
Summary
Mature kidney glomeruli possess a specific ultrafiltration barrier that is composed of fenestrated endothelial cells, a thick basement membrane, and visceral epithelial cells termed podocytes. A podocyte is a terminally differentiated post-mitotic cell that exhibits a specific shape similar to that of a neuronal cell, branching into primary and secondary foot processes from the cell body [1]. A specific and essential structure termed the slit diaphragm (SD) is present in the spaces between the interdigitating secondary foot processes that branch in opposite directions. The SD is the outermost filtration barrier covering the glomerulus and limits plasma proteins based on their size.
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