Cytoskeletal remodeling of rat aortic smooth muscle cells in vitro: relationships to culture conditions and analogies to in vivo situations.

Cytoskeletal features of arterial smooth muscle cells (SMC) vary characteristically during development and during atheromatous plaque formation (Gabbiani et al., 1984; Kocher et al., 1985). We have analyzed the cytoskeletal features of rat aortic SMC placed in culture in the presence of 10% foetal calf serum (thus containing growth factors probably playing a role in SMC development and atheroma formation), as compared to SMC freshly isolated from the rat aortic media. Under these conditions, SMC show a typical cytoskeletal remodeling characterized by: 1) increased content of vimentin per cell, increased number of cells containing only vimentin, and decreased number of vimentin plus desmin containing cells; 2) decreased contents of actin, tropomyosin and myosin; 3) a switch in the pattern of actin isoforms with the appearance of a beta-type predominance. Some of these changes (e.g. increase of vimentin and decrease of alpha-type actin) are seen already in cells entering for the first time in S-phase after plating. Pulse-chase experiments with 3H-thymidine (3H-TdR) indicate that vimentin containing SMC possess a higher replicative activity than vimentin plus desmin containing SMC, thus explaining the selection of vimentin containing cells during culture. Our results indicate that during culture SMC develop features similar to those observed in normal foetal SMC or in SMC present in atheromatous plaques; this model may be useful for the understanding of mechanisms leading to SMC differentiation and to atheroma formation.