Receptor protein tyrosine phosphatase mu expression as a marker for endothelial cell heterogeneity; analysis of RPTPmu gene expression using LacZ knock-in mice.

The receptor-like protein tyrosine phosphatase mu (RPTPmu) belongs to the subfamily of meprin, A5, RPTPmu (MAM) domain-containing RPTPs, which are thought to play an important role in cell-cell adhesion mediated processes. The current study was designed to examine the expression pattern of RPTPmu in mice. We have generated RPTPmu-LacZ knock-in mice that express the beta-galactosidase (LacZ) reporter gene under the control of the RPTPmu promoter. LacZ expression patterns were analysed in embryos and adult mice by whole mount LacZ staining. Analysis of beta-galactosidase activity of heterozygous embryos and adult tissues revealed RPTPmu expression in endothelial cells of arteries and capillaries. In contrast, expression was virtually absent in endothelial cells of veins and in fenestrated endothelial cells in the adult liver and spleen. Moreover, RPTPmu expression was found in endothelial cells from the endocardium and the aorta in embryos, but not in adult mice. In addition to heterogeneous expression in endothelial cells, RPTPmu expression was found in cardiac muscle cells but not in skeletal muscle cells or smooth muscle cells. Expression was also found in Type II pneumonocytes in the lung alveoli and in Purkinje cells and other neurons in the brain. The specific expression of RPTPmu in arterial endothelial cells and in cardiac myocytes suggests that RPTPmu may play a role in the regulation of cardiovascular functions.

Association of connexin43 with a receptor protein tyrosine phosphatase.

Connexin-43(Cx43)-based gap junctional communication is transiently inhibited by certain G protein-coupled receptor agonists, including lysophosphatidic acid, endothelin and thrombin. Our previous studies have implicated the c-Src protein tyrosine kinase in mediating closure of Cx43 based gap junctions. Pervanadate, an inhibitor of protein tyrosine phosphatases, mimics activated Src in inhibiting Cx43 gap junctional communication, apparently by promoting tyrosine phosphorylation of the Cx43 C-terminal tail. However, the identity of the protein tyrosine phosphatase(s) that may normally prevent Src-induced gap junction closure is unknown. Receptor-like protein tyrosine phosphatases that mediate homotypic cell-cell interaction are attractive candidates. Here we show that receptor protein tyrosine phosphatase mu (RPTPmu) interacts with Cx43 in diverse cell systems. We find that the first catalytic domain of RPTPmu binds to Cx43. Our results support a model in which RPTPmu, or a closely related protein tyrosine phosphatase, interacts with the regulatory C-terminal tail of Cx43 to prevent Src-mediated closure of Cx43 gap junctional channels.