Structure, chromosome location, and expression of the human smooth muscle (enteric type) gamma-actin gene: evolution of six human actin genes.

Miwa, Takeshi; Manabe, Yoshitaka; Kurokawa, Kiyoshi; Kamada, Shinji; Kanda, Naotoshi; Bruns, G.; Ueyama, Hisao; Kakunaga, Takeo

doi:10.1128/mcb.11.6.3296

Cited by 101 publications

(93 citation statements)

References 50 publications

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“…In the case of SM-␣-actin, TGF-␤ responsiveness involves two separate cis-elements: 1) the CArG/SRE motif, which we found to mediate TGF-␤-induced SM-␥-actin expression and 2) a G-Arich TGF-␤ control element or TCE (11), which is recognized in the promoter region of various SM-specific genes, but whose involvement in TGF-␤ responsiveness of these genes has not been investigated (11). The segment of the SM-␥-actin gene promoter that we demonstrate here to be necessary for TGF-␤ activation of the gene (Ϫ135 bp) is highly conserved across species (14,16,18,49) and does not contain any obvious TCE motifs. However, we did observe multiple protein-DNA complexes formed with oligonucleotide containing the SM-␥-actin CArG/SRE and surrounding sequences.…”

Section: Discussionmentioning

confidence: 99%

“…These observations, combined with previous studies in vivo (43,15) and in vitro (42,46) 3 suggest that TGF-␤ regulation of SRF expression also involves post-transcritpional mechanism(s) of control. (14), human (18), mouse (49), and rat (75) containing the region surrounding the CARG/SRE2 motif is shown. The sequence from this highly conserved segment of the SM-␥-actin promoter contains an A-T-rich and homeodomain binding motifs in addition to the CArG/SRE2 element that function in SMGA transcription.…”

Section: Srf Binding At Carg/sre2 Is Required For Tgf-␤ Transcriptionmentioning

confidence: 99%

“…The probe used in this experiment ( 135 CAATAAAACACCTTATATGGCCATATGGCT Ϫ106 ) is a highly conserved segment of the SM-␥-actin promoter (Fig. 5A) and contains a number of cis-acting elements that have been shown to be critical for smooth muscle-specific SM-␥-actin transcription (14,15,18,49,75). Thus the formation of multiple complexes is likely due to several DNA-protein interactions.…”

Section: Srf Binding At Carg/sre2 Is Required For Tgf-␤ Transcriptionmentioning

confidence: 99%

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Transforming Growth Factor-β Induction of Smooth Muscle Cell Phenotpye Requires Transcriptional and Post-transcriptional Control of Serum Response Factor

Hirschi¹,

Lai²,

Belaguli³

et al. 2002

Journal of Biological Chemistry

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Transforming growth factor-␤ induces a smooth muscle cell phenotype in undifferentiated mesenchymal cells. To elucidate the mechanism(s) of this phenotypic induction, we focused on the molecular regulation of smooth muscle-␥-actin, whose expression is induced at late stages of smooth muscle differentiation and developmentally restricted to this lineage. Transforming growth factor-␤ induced smooth muscle-␥-actin protein, cytoskeletal localization, and mRNA expression in mesenchymal cells. Smooth muscle-␥-actin promoter-luciferase reporter activity was enhanced by transforming growth factor-␤, and deletion analysis revealed that CArG box 2 in the promoter was necessary for this transcriptional activation. CArG motifs bind transcriptional activator serum response factor; gel shift analyses revealed increased binding of serum response factor-containing complexes to this site in response to transforming growth factor-␤, paralleled by increased serum response factor protein expression. Serum response factor expression was found to be up-regulated by transforming growth factor-␤ via transcriptional activation of the gene and post-transcriptional regulation. Using mesenchymal cells stably transfected with wild type or dominant-negative serum response factor, we demonstrated that its expression is sufficient for induction of a smooth muscle phenotype in mesenchymal cells and is necessary for transforming growth factor-␤-mediated smooth muscle induction.

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Section: Discussionmentioning

confidence: 99%

Section: Srf Binding At Carg/sre2 Is Required For Tgf-␤ Transcriptionmentioning

confidence: 99%

Section: Srf Binding At Carg/sre2 Is Required For Tgf-␤ Transcriptionmentioning

confidence: 99%

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Transforming Growth Factor-β Induction of Smooth Muscle Cell Phenotpye Requires Transcriptional and Post-transcriptional Control of Serum Response Factor

Hirschi¹,

Lai²,

Belaguli³

et al. 2002

Journal of Biological Chemistry

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“…[9][10][11][12][13] The avian SMGA gene promoter contains six CArG/SRE motifs ( Figure 1), four of which are known to be conserved in structure and location with the human and mouse SMGA genes. 14,15 Moreover, serum response factor (SRF), a highly conserved protein that is developmentally regulated in smooth muscle myogenesis and which binds to DNA as a heterodimer with multiple distinct partners, binds four of the six CArG/SRE motifs of the SMGA promoter. 7,8,16,17 The promoter also contains 13 Ebox motifs, three of which bind to a class of transcription factors, the bHLH family, exemplified by the muscle-specific factor MyoD.…”

Section: Introductionmentioning

confidence: 99%

Cell-specific nuclear import of plasmid DNA

et al. 1999

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One factor limiting the success of non-viral gene therapy smooth muscle cells, we have created a series of reporter vectors is the relative inability to target genes specifically plasmids that are expressed selectively in smooth muscle to a desired cell type. To address this limitation, we have cells. Moreover, when injected into the cytoplasm, plasbegun to develop cell-specific vectors whose specificity is mids containing portions of the SMGA promoter localize to at the level of the nuclear import of the plasmid DNA. We the nucleus of smooth muscle cells, but remain cytoplashave recently shown that nuclear import of plasmid DNA mic in fibroblasts and CV1 cells. In contrast, a similar plasis a sequence-specific event, requiring the SV40 enhancer, mid carrying the SV40 enhancer is transported into the a region known to bind to a number of general transcription nuclei of all cell types tested. Nuclear import of the SMGA factors (Dean DA, Exp Cell Res 1997; 230: 293). From promoter-containing plasmids could be achieved when the these studies we developed a model whereby transcription smooth muscle specific transcription factor SRF was factor(s) bind to the DNA in the cytoplasm to create a proexpressed in stably transfected CV1 cells, supporting our tein-DNA complex that can enter the nucleus using the model for the nuclear import of plasmids. Finally, these protein import machinery. Our model predicts that by using nuclear targeting sequences were also able to promote DNA elements containing binding sites for transcription facincreased gene expression in liposome-and polycationtors expressed in unique cell types, we should be able to transfected non-dividing cells in a cell-specific manner, create plasmids that target to the nucleus in a cell-specific similar to their nuclear import activity. These results promanner. Using the promoter from the smooth muscle vide proof of principle for the development of cell-specific gamma actin (SMGA) gene whose expression is limited to non-viral vectors for any desired cell type.

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“…Differentiated smooth muscle cells are characterized by their expression of a unique subset of contractile protein isoforms including smooth muscle ␣-actin (15)(16)(17)(18), smooth muscle ␥-actin (17)(18)(19)(20)(21), smooth muscle myosin heavy and light chains (22)(23)(24), calponin (25), SM22␣ (26 -28), and telokin (29 -31). Furthermore, these cells possess the capability to express appropriate levels of these characteristic smooth muscle proteins even though they are derived from diverse embryonic origins (32).…”

mentioning

confidence: 99%

The Smooth Muscle γ-Actin Gene Promoter Is a Molecular Target for the Mouse bagpipe Homologue, mNkx3-1, and Serum Response Factor

Carson¹,

Fillmore²,

Schwartz³

et al. 2000

Journal of Biological Chemistry

104

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An evolutionarily conserved vertebrate homologue of the Drosophila NK-3 homeodomain gene bagpipe, Nkx3-1, is expressed in vascular and visceral mesodermderived muscle tissues and may influence smooth muscle cell differentiation. Nkx3-1 was evaluated for mediating smooth muscle ␥-actin (SMGA) gene activity, a specific marker of smooth muscle differentiation. Expression of mNkx3-1 in heterologous CV-1 fibroblasts was unable to elicit SMGA promoter activity but required the coexpression of serum response factor (SRF) to activate robust SMGA transcription. A novel complex element containing a juxtaposed Nkx-binding site (NKE) and an SRF-binding element (SRE) in the proximal promoter region was found to be necessary for the Nkx3-1/ SRF coactivation of SMGA transcription. Furthermore, Nkx3-1 and SRF associate through protein-protein interactions and the homeodomain region of Nkx3-1 facilitated SRF binding to the complex NKE⅐SRE. Mutagenesis of Nkx3-1 revealed an inhibitory domain within its C-terminal segment. In addition, mNkx3-1/SRF cooperative activity required an intact Nkx3-1 homeodomain along with the MADS box of SRF, which contains DNA binding and dimerization structural domains, and the contiguous C-terminal SRF activation domain. Thus, SMGA is a novel target for Nkx3-1, and the activity of Nkx3-1 on the SMGA promoter is dependent upon SRF.

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Structure, chromosome location, and expression of the human smooth muscle (enteric type) gamma-actin gene: evolution of six human actin genes.

Cited by 101 publications

References 50 publications

Transforming Growth Factor-β Induction of Smooth Muscle Cell Phenotpye Requires Transcriptional and Post-transcriptional Control of Serum Response Factor

Transforming Growth Factor-β Induction of Smooth Muscle Cell Phenotpye Requires Transcriptional and Post-transcriptional Control of Serum Response Factor

Cell-specific nuclear import of plasmid DNA

The Smooth Muscle γ-Actin Gene Promoter Is a Molecular Target for the Mouse bagpipe Homologue, mNkx3-1, and Serum Response Factor

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