An isoactin analysis was performed on L-[35S]cysteine labeled BC3H1 cells to determine if these smooth muscle-like cells synthesize vascular smooth muscle actin. Three different NH2-terminal peptides were identified on thin layer electrophoretograms of DNase I-purified and trypsin-digested BC3H1 cell actin. Results obtained from secondary digestion with thermolysin or Staphylococcus aureus V8 protease showed that the most acidic NH2-terminal peptide was derived from vascular smooth muscle alpha-isoactin. Treatment of cell monolayers with serum-free medium caused a 3-fold increase in the level of alpha-isoactin expression and a concomitant decrease in the level of non-muscle beta- and gamma-isoactin. Cell-cell contact was required for induction of alpha-isoactin, and the effects of serum depletion on isoactin expression and cell growth were reversible. The intensity of about 11 out of 500 polypeptide spots on two-dimensional gels of BC3H1 cell polypeptides also was influenced by the culture conditions. The finding that smooth muscle isoactin expression was coupled to cell growth conditions indicate the potential usefulness of BC3H1 cells in studies of isoactin expression and utilization during vascular smooth muscle development.