We describe here the subcellular distributions of three junctional proteins in different adherens-type contacts. The proteins examined include vinculin, talin, and a recently described 135-kD protein (Volk, T., and B. Geiger, 1984, EMBO (Eur. Mol. Biol. Organ.) J., 10:2249-2260). Immunofluorescent localization of the three proteins indicated that while vinculin was ubiquitously present in all adherens junctions, the other two showed selective and mutually exclusive association with either cell-substrate or cell-cell adhesions. Talin was abundant in focal contacts and in dense plaques of smooth muscle, but was essentially absent from intercellular junctions such as intercalated disks or adherens junctions of lens fibers. The 135-kD protein, on the other hand, was present in the latter two loci and was apparently absent from membrane-bound plaques of gizzard or from focal contacts. Radioimmunoassay of tissue extracts and immunolabeling of cultured chick lens cells indicated that the selective presence of talin and of the 135-kD protein in different cell contacts is spatially regulated within individual cells.On the basis of these findings it was concluded that adherens junctions are molecularly heterogeneous and consist of at least two major subgroups. Contacts with noncellular substrates contain talin and vinculin but not the 135-kD protein, whereas their intercellular counterparts contain the latter two proteins and are devoid of talin. The significance of these results and their possible relationships to contact-induced regulation of cell behavior are discussed.Adherens junctions consist of a family of stable cell contacts in which actin is characteristically associated with the endofacial surfaces of the plasma membrane (16,20,23,40). Typical examples of adherens junctions are the zonula and fascia adherentes of polarized epithelia and cardiac myocytes (32, 42), small adhesions of fibroblasts (29), focal contacts in cell cultures (3, 18), dense plaque of smooth muscle (19), etc. The major justification for the reference to all these morphologically diverse structures as a closely related group of cell contacts was the apparent molecular homology between them. Studies in several laboratories indicated that all adherens junctions contain vinculin at their cytoplasmic aspects, and it was thus postulated that vinculin is involved in the linkage of actin to the membrane in these sites. The presence of a ubiquitous "plaque" component in all adherens junctions and their apparent association with actin filaments have raised the possibility that, in spite of considerable morphological variability, the molecular homology between all adherensjunctions may be quite extensive. To study this aspect directly we have tried to identify additional components of adherens junctions and study their spatial distributions in cells and tissues.Recently two relevant proteins were described which are specifically bound to adherens junctions, including talin (9, 34) and a 135-kD protein (45). The former is a 215-kD protein i...
