CASK (LIN2) interacts with Cx43 in wounded skin and their coexpression affects cell migration.

Vertebrate gap junctions are composed of proteins from the connexin family. Co-immunoprecipitation, in vitro binding and far western experiments demonstrate that mammalian CASK (also known as LIN2) directly interacts with Cx43. Immunoprecipitation studies indicate that the CASK mainly interacts with the hypophosphorylated form of Cx43. Functional co-regulation of these proteins was found in MDCK cells migrating into a scratch wound, where expression of either protein individually inhibits migration but their coexpression abrogates this inhibitory effect. Immunofluorescence shows colocalization of Cx43 and CASK in mouse brain astrocytes and in response to wounding in human foreskin. During wounding, CASK is mobilized to the plasma membrane where it colocalizes with Cx43 and CADM1 1 hour after skin explant wounding. Together, these studies indicate that CASK interaction with Cx43 occurs relatively early in the connexin life cycle and imply a plasma membrane targeting role for the interaction that apparently affects cellular processes including cellular migration and wound healing.