Serum response factor (SRF) is a key regulator of smooth muscle differentiation, proliferation, and migration. Myocardin-related transcription factor A (MRTFA) is a co-activator of SRF that can induce expression of SRF-dependent, smooth musclespecific genes and actin/Rho-dependent genes, but not MAPKregulated growth response genes. How MRTFA and SRF discriminate between these sets of target genes is still unclear. We hypothesized that SWI/SNF ATP-dependent chromatin remodeling complexes, containing Brahma-related gene 1 (Brg1) or Brahma (Brm), may play a role in this process. Results from Western blotting and qRT-PCR analysis demonstrated that dominant negative Brg1 blocked the ability of MRTFA to induce expression of smooth muscle-specific genes, but not actin/Rhodependent early response genes, in fibroblasts. In addition, dominant negative Brg1 attenuated expression of smooth muscle-specific genes in primary cultures of smooth muscle cells. MRTFA overexpression did not induce expression of smooth muscle-specific genes in SW13 cells, which lack endogenous Brg1 or Brm. Reintroduction of Brg1 or Brm into SW13 cells restored their responsiveness to MRTFA. Immunoprecipitation assays revealed that Brg1, SRF, and MRTFA form a complex in vivo, and Brg1 directly binds MRTFA, but not SRF, in vitro. Results from chromatin immunoprecipitation assays demonstrated that dominant negative Brg1 significantly attenuated the ability of MRTFA to increase SRF binding to the promoters of smooth muscle-specific genes, but not early response genes. Together these data suggest that Brg1/Brm containing SWI/ SNF complexes play a critical role in regulating expression of SRF/MRTFA-dependent smooth muscle-specific genes but not SRF/MRTFA-dependent early response genes.There are many clinical diseases, such as atherosclerosis, hypertension and asthma that involve abnormal differentiation of smooth muscle cells. An important pathological process that occurs in these diseases is the disruption of the balance between differentiation and proliferation of smooth muscle cells (1-4). Serum response factor (SRF) 4 has been shown to play an essential role in regulating smooth muscle differentiation, proliferation, and migration through its interaction with various accessory proteins (5). Smooth muscle-specific genes, such as SM ␣-actin, SM MHC, 130-kDa MLCK, SM22␣, and telokin, are activated by SRF-myocardin, SRF/MRTFA, SRF/GATA6/ CRP2, or SRF/Nkx complexes (6 -21). The immediate early growth factor responsive genes, such as c-fos and egr1 are regulated by SRF/ELK-1 (ets) complexes (22-24). The later early response genes, such as SRF itself and vinculin, that are actin/ Rho-dependent, are regulated by SRF-MRTFA complexes (16,25,26). Myocardin-related transcription factor A (MRTFA, or Mkl1, MAL, BSAC) is a unique co-activator of SRF in that it is involved in the regulation of multiple SRF-dependent gene families (reviewed in Ref. 27). MRTFA has been reported to induce SRF-dependent, smooth muscle-specific genes such as telokin, SM22␣, and SM ␣-act...
