Characterization of a mammalian smooth muscle cell line that has retained transcriptional and posttranscriptional potencies.

Unlike skeletal and cardiac muscle cells that differentiate irreversibly, smooth muscle cells (SMCs) retain a high degree of plasticity. During the so-called phenotypic modulation, SMCs can undergo transition between a contractile phenotype and a highly proliferative synthetic phenotype, as apparent from the extinction of numerous smooth muscle (SM) markers when they are passaged in culture. It would be very useful to have an SMC line that can be indefinitely propagated for the cellular and molecular analysis of the mechanisms that underlie the control of SM differentiation. This report describes an immortalized rabbit aorta SMC-derived cell line (U8A4) that has conserved differentiated properties through multiple subcultures. U8A4 cells can grow in the absence of serum and express the SMC markers studied, including SM alpha-actin, SM calponin, SM22alpha, SM alpha-tropomyosin (alpha-TM), SM myosin heavy chain (SM-MHC), and myocardin. U8A4 cells can activate SMC-restricted promoters like those of SM22alpha, SM calponin, and SM-MHC genes as efficiently as described previously for rat SMC lines (PAC1, A7r5, and A10). These cells can also process exogenous alpha-TM transcripts according to an SM-specific pattern. These results demonstrate that the U8A4 cell line constitutes a good alternative model to existing SMC lines that could facilitate the study of the transcriptional and posttranscriptional regulatory mechanisms underlying SMC differentiation.