Formation of vinculin plaques precedes other cytoskeletal changes during retinoic acid-induced teratocarcinoma cell differentiation.

Immunofluorescence and immunoblotting techniques were used to study the presence and distribution of vimentin and keratin type intermediate filaments, actin, and vinculin (130 kD protein) during retinoic acid (RA)-induced differentiation of F9 embryonal carcinoma (EC) cells. The undifferentiated F9 cells regularly expressed vimentin, usually concentrated close to the nucleus, but not keratin. Actin appeared as short intracellular filaments and as spikes at the edges of the colonies, together with some diffuse cytoplasmic staining. F9 cells also showed a weak, diffuse cytoplasmic vinculin-specific fluorescence in addition to occasional small focal vinculin patches at the edges of the cell colonies. RA treatment led into a series of changes in the cytoskeletal organization of F9 cells. These changes were initiated by the appearance of distinct vinculin plaques and followed by formation of actin stress fibers and by profound changes in the organization of vimentin in the flattening cells. RA treatment finally led to the appearance and co-expression of keratin fibrils in many of the vimentin-containing F9 cells. This sequence of changes suggests that the vinculin-containing adhesion plaques may be important in the mechanism of RA-induced differentiation of EC cells.