Abstract
Nephrin is expressed at the basolateral aspect of podocytes and is an important signaling protein at the glomerular slit diaphragm. In vitro studies have demonstrated that Nephrin phosphorylation-dependent signaling is able to assemble a protein complex that is able to polymerize actin. However, proximal signaling events that result in nephrin tyrosine phosphorylation are not well understood. Nephrin deletion in mice and human nephrin mutations result in developmental failure of the podocyte intercellular junction resutling in proteinuria. This has been presumed to be due to a failure to respond to an external polarized cue in the absence of nephrin or a failure to transduce an outside-in signal in patients with nephrin mutations. The nephrin extracellular domain binds to itself or neph1 across the foot process intercellular junction. Nephrin is tyrosine phosphorylation-silent in healthy glomeruli when presumably the nephrin extracellular domain is in an engaged state. These observations raise the possibility of an alternate proximal signaling mechanism that might be responsible for nephrin tyrosine phosphorylation. Here we present data showing that integrin engagement at the basal aspect of cultured podocytes results in nephrin tyrosine phosphorylation. This is abrogated by incubating podocytes with an antibody that prevents integrin β1 ligation and activation in response to binding to extracellular matrix. Furthermore, nephrin tyrosine phosphorylation was observed in podocytes expressing a membrane-targeted nephrin construct that lacks the extracellular domain. We propose, integrin-activation based signaling might be responsible for nephrin phosphorylation rather than engagment of the nephrin extracellular domain by a ligand.
Highlights
Podocytes are highly specialized terminally differentiated epithelial cells that are an important component of the selective filtration barrier of the renal glomerulus
To test our hypothesis that nephrin will be tyrosine phosphorylated following integrin ligation we plated immortalized podocytes cells stably expressing nephrin (Mspodnphs1) on a surface coated with fibronectin and Laminin
We will refer to tyrosine phosphorylation of nephrin Y1191 and Y1208 cytoplasmic domain residues that are important for nephrin-nck interaction as nephrin tyrosine phosphorylation in the remaining text
Summary
Podocytes are highly specialized terminally differentiated epithelial cells that are an important component of the selective filtration barrier of the renal glomerulus. It is not surprising that observations made by artificial clustering of nephrin have provided support to the hypothesis of an activating nephrin ligand Both in vitro and in vivo studies have shown that nephrin is not phosphorylated at its basal steady state [6,9,10]. We present data that shows in an in vitro model, integrin ligation and activation results in nephrin tyrosine phosphorylation when cultured podocytes are plated on a surface coated with laminin or fibronectin. The specificity of this proposed integrin-nephrin signaling is demonstrated by abrogation of nephrin phosphorylation when ligation of β1 and β3 integrin was inhibited. The proposed signaling mechanisms provide an alternate model of nephrin phosphorylation that is consistent with the observations made both in vivo and in vitro
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