The Role of Extracellular and Cytoplasmic Splice Domains of α7-Integrin in Cell Adhesion and Migration on Laminins

Abstract

The major laminin-binding integrin of skeletal, smooth, and heart muscle is α7β1-integrin, which is structurally related to α6β1. It occurs in three cytoplasmic splice variants (α7A, -B, and -C) and two extracellular forms (X1 and X2) which are developmentally regulated and differentially expressed in skeletal muscle. Previously, we have shown that ectopic expression of the α7β-integrin splice variant in nonmotile HEK293 cells specifically induced cell locomotion on laminin-1 but not on fibronectin. To investigate the specificity and the mechanism of the α7-mediated cell motility, we expressed the three α7-chain cytoplasmic splice variants, as well as α6A- and α6B-integrin subunits in HEK293 cells. Here we show that all three α7 splice variants (containing the X2 domain), as well as α6A and α6B, promote cell attachment and stimulate cell motility on laminin-1 and its E8 fragment. Deletion of the cytoplasmic domain (excluding the GFFKR consensus sequence) from α7B resulted in a loss of the motility-enhancing effect. On laminin-2/4 (merosin), the predominant isoform in mature skeletal muscle, only α7-expressing cells showed enhanced motility, whereas cells transfected with α6A and α6B neither attached nor migrated on laminin-2. Adhesion of α7-expressing cells to both laminin-1 and laminin-2 was specifically inhibited by a new monoclonal antibody (6A11) specific for α7. Expression of the two extracellular splice variants α7X1 and α7X2 in HEK293 cells conferred different motilities on laminin isoforms: Whereas α7X2B promoted cell migration on both laminin-1 and laminin-2, α7X1B supported motility only on laminin-2 and not on laminin-1, although both X1 and X2 splice variants revealed similar adhesion rates to laminin-1 and -2. Fluorescence-activated cell sorter analysis revealed a dramatic reduction of surface expression of α6-integrin subunits after α7A or -B transfection; also, surface expression of α1-, α3-, and α5-integrins was significantly reduced. These results demonstrate selective responses of α6- and α7-integrins and of the α7 splice variants to laminin-1 and -2 and indicate differential roles in laminin-controlled cell adhesion and migration.