Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of myogenin is suppressed during innervation and has been implicated in determining properties of skeletal muscle which are regulated by electrical activity. We previously reported that transcription driven by 3700 bp of the mouse myogenin upstream sequence (MYG3700) is activated by denervation in transgenic mice (Nucleic Acids Res. 21, 5684-5693, 1993). To extend our investigation of the activity dependence of the myogenin promoter, we have utilized myoblast implantation as a novel approach to in vivo reporter analysis. Myoblasts for hindlimb injections were generated by stable transfection of chloramphenicol acetyltransferase (CAT) reporters into a beta-galactosidase-expressing line of C2 cells. In vitro characterization of stable myoblast clones carrying myogenin-CAT deletion constructs revealed that while the proximal myogenin 5'-flanking sequence confers myotube specificity, high-level expression requires a region upstream (-335 to -1102) which depends on chromosomal integration for its function. For analysis by implantation, incorporation of injected myoblasts into existing myofibers was confirmed by histochemical staining. Using clonal myoblasts harboring nicotinic receptor alpha-subunit (alpha 800) and myosin light chain receptors as positive and negative controls, respectively, for denervation responsiveness, we determined that the nuclei of injected myoblasts are susceptible to regulatory signals imposed by nerve-induced electrical activity of the myofiber into which they incorporate. In in vivo analysis of myogenin upstream sequence by implantation, CAT activities of MYG3700 and MYG1565 reporters in injected limbs increased up to fourfold within 4 days after denervation, whereas the activities of MYG1102 and MYG335 were unchanged. By 10 days after denervation, all myogenin reporters displayed denervation responsiveness. These implantation data suggest an early phase of denervation activation, one that is mediated by control elements residing within -1102 to -1565 of the myogenin upstream sequence. Thus, the combined analyses of stable reporter myoblast lines in vitro and in vivo by implantation provide an efficient means of evaluating regulatory regions for high-level expression and neural modulation of muscle gene transcription.
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PMID:Analysis of neural-responsive myogenin upstream sequences by myoblast implantation. 861 76

Bone morphogenetic protein-2 (BMP-2) inhibits terminal differentiation of C2C12 myoblasts and converts them into osteoblast lineage cells (Katagiri, T., Yamaguchi, A., Komaki, M., Abe, E., Takahashi, N., Ikeda, T., Rosen, V., Wozney, J. M., Fujisawa-Sehara, A., and Suda T. (1994) J. Cell Biol. 127, 1755-1766). In the present study, we examined the possible involvement of Smad proteins, vertebrate homologues of Drosophila Mothers against decapentaplegic, in the BMP effects on the differentiation of C2C12 myoblasts. C2C12 cells expressed Smad1, Smad2, Smad4, and Smad5 mRNAs, and expression levels were not altered by treatment with BMP-2 or TGF-beta1. When Smads were transiently transfected into C2C12 cells, both Smad1 and Smad5 induced alkaline phosphatase (ALP) activity and decreased the activity of myogenin promoter/chloramphenicol acetyltransferase (myogenin-CAT) without BMP-2. When C-terminal-truncated Smad1 and Smad5 were transfected into constitutively active BMP receptor type IB (BMPR-IB)-expressing C2C12 cells, BMP signals were blocked, resulting in an increase in myogenin-CAT activity. On the other hand, Smad1 and Smad5 decreased myogenin-CAT activity but did not induce ALP activity in MyoD-transfected NIH3T3 fibroblasts. These results suggest that both Smad1 and Smad5 are involved in the intracellular BMP signals which inhibit myogenic differentiation and induce osteoblast differentiation in C2C12 cells, and that the conversion of the two differentiation pathways is regulated independently at a transcriptional level.
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PMID:Smad1 and smad5 act downstream of intracellular signalings of BMP-2 that inhibits myogenic differentiation and induces osteoblast differentiation in C2C12 myoblasts. 929 54

E-box/basic helix-loop-helix (bHLH)-dependent regulation of promoters for skeletal muscle-specific genes is well established, but similar regulation of smooth muscle-selective promoters has not been reported. Using transient transfection assays of smooth muscle alpha-actin (SMalphaA) promoter-chloramphenicol acetyltransferase (CAT) reporter constructs in rat vascular smooth muscle cells (SMCs) and L6 skeletal myotubes, we identified two activator elements, smE1 and smE2, with sequences corresponding to E-box (5'-CAnnTG-3') motifs. In L6 myotubes, 4-bp mutations of smE1 or smE2 E-box motif alone completely abolished promoter activity. In contrast, mutation of smE1 and smE2 was required to reduce promoter activity in SMCs. Supershift analyses identified a myogenin-containing complex as the predominant smE1 and smE2 binding activity in skeletal muscle, and myogenin overexpression transactivated the promoter. Supershift analyses with SMC extracts demonstrated that the bHLH protein upstream stimulatory factor (USF) bound smE1, and USF overexpression transactivated the promoter in an smE1-dependent manner. In summary, our results provide novel evidence implicating E-box elements in directing expression of the SMalphaA promoter through distinct bHLH factor complexes in skeletal vs. smooth muscle.
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PMID:Differential activation of the SMalphaA promoter in smooth vs. skeletal muscle cells by bHLH factors. 1036 6

Cells of the baby hamster kidney (BHK) line express the skeletal muscle determining transcription factor MyoD but fail to differentiate. Unlike most skeletal myogenic cells, which express multiple members of the cadherin family of cell-cell adhesion proteins, the BHK cells lack a robust cadherin adhesion system. We previously published that forced expression of N- (or E)-cadherin in BHK cells increases the level of endogenous catenins, mediates strong cell-cell adhesion, and enhances differentiation of BHK cells induced to differentiate by placing them in three-dimensional (3-D) culture (Redfield et al. [1997] J. Cell. Biol. 138:1323-1331). This report demonstrates that N-cadherin adhesion upregulates the protein level of nuclear myogenin in cells induced to differentiate by 3-D culture. Myogenin is a transcription factor required for differentiation of skeletal muscle. It was not detected in monolayer culture, whether the cells expressed N-cadherin or not, nor was it upregulated in 3-D cultures of cells lacking N-cadherin. The activity of two myogenin-chloramphenicol acetyltransferase (CAT) reporter constructs containing 3.7 or 1.1 kb upstream regulatory region of the mouse myogenin gene was increased significantly in N-cadherin-expressing cells induced to differentiate by 3-D culture. Our observations indicate that N-cadherin adhesion stimulates skeletal myogenesis by upregulating myogenin.
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PMID:Upregulation of myogenin by N-cadherin adhesion in three-dimensional cultures of skeletal myogenic BHK cells. 1072 91

The neurohypophyseal nonapeptide Arg8 vasopressin (AVP) promotes differentiation of cultured L6 and L5 myogenic cell lines and mouse primary satellite cells. Here, we investigated the molecular mechanism involved in the induction of the myogenic program by AVP. In L6 cells, AVP treatment rapidly induces Myf-5, myogenin, and myocyte enhancer factor 2 (MEF2) mRNAs, without affecting the expression of known myogenic growth factors such as IGF-I, IGF-II, or their receptors. In the presence of cycloheximide, AVP up-regulates the expression of MEF2, but not of myogenin, indicating that the synthesis of a protein intermediate is not necessary for MEF2 induction. Notably, AVP treatment activates a calcium/calmodulin kinase signaling pathway that induces cytosolic compartmentalization of the histone deacetylase 4, a mechanism related to the transcriptional activation of MEF2. The activity of chloramphenicol acetyltransferase reporter constructs carrying the Myo184 and Myo84 fragments of the myogenin promoter is also induced by AVP. Mutation of the MEF2 site completely abolishes the response to AVP, whereas deletion of the E1 site present in pMyo84 does not impair this response. Together, these results show that AVP induces myogenic differentiation through the transcriptional activation of MEF2, a mechanism that is critical for myogenesis.
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PMID:AVP induces myogenesis through the transcriptional activation of the myocyte enhancer factor 2. 1204 25


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