Integrin recognition of different cell-binding fragments of laminin (P1, E3, E8) and evidence that alpha 6 beta 1 but not alpha 6 beta 4 functions as a major receptor for fragment E8.

The involvement of integrins in mediating interaction of cells to well-characterized proteolytic fragments (P1, E3, and E8) of laminin was assessed by antibody blocking studies. Cell adhesion to fragment P1 was affected by mAbs against the integrin beta 1 and beta 3 subunits and furthermore could be prevented completely by a synthetic peptide containing the Arg-Gly-Asp sequence. Because the beta 3 antibody-sensitive cell lines expressed the vitronectin receptor (alpha v beta 3) at high levels, the involvement of this receptor in cell adhesion to P1 is strongly suggested. Integrin-mediated cell adhesion to E3 is of low affinity and was inhibited by antibodies against the integrin beta 1 subunit. In contrast, adhesion of some cell types to E3 was not or only partially sensitive to inhibition by anti-integrin subunit antibodies. Cell adhesion to E8 was blocked completed by integrin alpha 6 or beta 1 antibodies. The alpha 6-specific antibody did not inhibit cell adhesion to E3 or P1. Furthermore, the antibody only blocked adhesion to laminin of those cells that adhered exclusively to the E8 fragment. In addition, expression of alpha 6 beta 1 was closely correlated with the ability of cells to bind to the E8 fragment of laminin. These results indicate that the alpha 6 beta 1 integrin is a specific receptor for the E8 fragment of laminin. Many cell types expressed, instead of or in addition to alpha 6 beta 1 the recently described integrin alpha 6 beta 4. Although the ligand of alpha 6 beta 4 was not identified, it must be different from that of alpha 6 beta 1, because cells that express alpha 6 beta 4, but not alpha 6 beta 1, do not adhere to E8, and cell adhesion to E8 was specifically blocked by beta 1 specific antibodies. In conclusion, the data indicate that distinct integrin receptors belonging to the beta 1 or beta 3 subfamily are involved in adhesion of cells to the various laminin fragments. Adhesion to E3 may also be brought about by other receptor molecules, possibly proteoglycans, not belonging to the integrin family.

The alpha 6 beta 1 (VLA-6) and alpha 6 beta 4 protein complexes: tissue distribution and biochemical properties.

A member of the integrin family, the alpha 6 beta 4 complex was previously identified on human and mouse carcinoma cell lines by using a rat monoclonal antibody to alpha 6. Here we describe two monoclonal antibodies that recognize epitopes on the beta 4 subunit of the human and mouse alpha 6 beta 4 complexes. The monoclonal antibodies against beta 4 were able to preclear alpha 6 beta 4, but not alpha 6 beta 1 from cell line extracts. A substantial fraction of the total beta 4 subunits present on the cell surface was not associated with alpha 6, as it could not be removed by anti-alpha 6 antibodies, but remained precipitable with anti-beta 4 antibodies. There was no evidence for novel alpha subunits associated with beta 4. The alpha 6 subunit consists of disulfide-linked heavy and light chains. The variability in size of these two chains from different cell types is largely due to differences in modifications of N-linked glycans. Additional heterogeneity may be caused by differential proteolytic cleavage of the alpha 6 precursor. Immunoperoxidase staining of tissue sections of neonatal and adult mice revealed that beta 4 expression is limited to epithelial tissues and peripheral nerves. The alpha 6 subunit has a wider distribution that includes all tissues and cells stained by antibodies against beta 4. Cells and tissue that are positive for alpha 6, but negative for beta 4, may express the alpha 6 beta 1 complex.