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)

Previous studies have shown that in vitro expression of the neural cell adhesion molecule (N-CAM) can be regulated by the products of homeobox genes HoxB9, -B8, and -C6. N-CAM is a Ca(2+)-independent immunoglobulin-related CAM that plays an important role in neural development. In the present study, we investigated whether the liver cell adhesion molecule (L-CAM) a member of the Ca(2+)-dependent CAM family (cadherins) is also regulated by homeobox-containing genes. In transient cotransfection experiments of NIH 3T3 cells, we observed that both HoxD9 and liver-enriched POU-homeodomain transcription factor, HNF-1, activated chloramphenicol acetyltransferase gene reporter constructs containing the L-CAM promoter and an enhancer present in the second intron of the chicken L-CAM gene. Using electrophoretic mobility-shift assays, we found that components of cell extracts from NIH 3T3 cells transfected with HoxD9 bound to a small region of the L-CAM enhancer having a consensus sequence that is a putative binding site for HNF-1. Components of extracts from the chicken hepatoma cell line LMH that had been transfected with an HNF-1 expression vector also bound to this same site. In nuclear run-on experiments with nuclei from LMH cells that were transfected with expression vectors for HoxD9 or HNF-1, L-CAM RNA levels were increased 33-fold and 4-fold respectively. Using the same run-on procedure, it was confirmed that nuclei prepared from normal embryonic chicken liver cells expressed the RNAs for HoxD9, HNF-1, and L-CAM. Taken together with previous observations, these data raise the possibility that homeobox-containing genes will have a widespread role in the place-dependent expression of CAMs belonging both to immunoglobulin-related and to cadherin families.
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PMID:Regulation in vitro of an L-CAM enhancer by homeobox genes HoxD9 and HNF-1. 791 99

L-CAM is a calcium-dependent cell adhesion molecule that is expressed in a characteristic place-dependent pattern during development. Previous studies of ectopic expression of the chicken L-CAM gene under the control of heterologous promoters in transgenic mice suggested that cis-acting sequences controlling the spatiotemporal expression patterns of L-CAM were present within the gene itself. We have now examined the L-CAM gene for sequences that control its expression and have found an enhancer within the second intron of the gene. A 2.5-kb Kpn I-EcoRI fragment from the intron acted as an enhancer of a simian virus 40 minimal promoter driving a chloramphenicol acetyltransferase (CAT) reporter gene and produced 14.0-fold induction of CAT activity in MDCK cells. To narrow down the region responsible for enhancer activity and to determine whether the enhancer could function in a cell type-specific manner, a number of smaller restriction fragments from the intron were tested for activity in two chicken cell lines, the LMH hepatoma line, which produces high levels of L-CAM, and the SL-29 fibroblast line, which produces little, if any, L-CAM. Four L-CAM enhancer plasmids containing shorter segments derived from the intron showed enhanced CAT activity levels (between 9.4- and 16.5-fold) in extracts from transfected LMH cells but not from SL-29 cells. DNA sequence analysis of the L-CAM enhancer region revealed putative binding sites for the transcription factors SP1, E2A, and AP-2. In addition, LE-9, the smallest L-CAM enhancer segment (310 bp), contained a consensus binding site for the liver-enriched POU-homeodomain transcription factor, HNF-1. Tests of upstream sequences showed that a 630-bp fragment, corresponding to nearly the entire intergenic region between L-CAM and its neighboring CAM gene, K-CAM, could function as a promoter. In combination with the L-CAM enhancer, this fragment directed cell type-specific expression of the CAT reporter gene in LMH cells at a level comparable to that observed with enhancer constructs using the simian virus 40 minimal promoter. These combined observations define a promoter and an enhancer for the chicken L-CAM gene. They raise the possibility that these cis-acting regulatory sequences may be instrumental in directing specific place-dependent expression of the L-CAM gene in the chicken.
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PMID:Identification of the promoter and a transcriptional enhancer of the gene encoding L-CAM, a calcium-dependent cell adhesion molecule. 824 53

The mechanisms that direct expression of the Clara cell secretory protein (CCSP) gene to the bronchiolar epithelial cells of the lung remain to be elucidated. Previous studies have identified a number of proteins which bind to a functionally important region (Region 1) located -132 to -76 bp from the transcription start site in the rat CCSP gene. Subsequently we have shown that while Region 1 is an important positive regulator of CCSP gene expression, sequences 3' of this region (-75 to +38) are sufficient to confer tissue-specific expression of a reporter gene. In the present study we have used transient transfections with a deletion series of CCSP-CAT reporter plasmids (where CAT is chloramphenicol acetyltransferase) and gel mobility shift assays with a series of overlapping oligonucleotides covering the whole minimal promoter region to study protein-DNA interactions within this region. These studies have identified a conserved functional binding site for the lung and thyroid enriched homeodomain transcription factor TTF-1, located between positions -51 and -42 from the transcription start site. CCSP-CAT chimaeric reporters containing this region are specifically activated by TTF-1 in co-transfection assays, and nuclear extracts from cells which express TTF-1 bind to this region, as does in vitro translated rat TTF-1. Three additional conserved regions were identified, and in further gel mobility shift studies with an oligonucleotide spanning the conserved region immediately 5' to the TTF-1 site we identified a binding site for the ubiquitously expressed zinc-finger-containing proteins Sp1 and Sp3. These studies suggest that cell-type-restricted and ubiquitous nuclear proteins may play a combined role in the regulation of the CCSP gene within the bronchiolar epithelium by interacting with the minimal promoter region.
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PMID:The lung enriched transcription factor TTF-1 and the ubiquitously expressed proteins Sp1 and Sp3 interact with elements located in the minimal promoter of the rat Clara cell secretory protein gene. 868 89

The objective of the present study was to examine the molecular mechanisms whereby angiotensin II (Ang II) stimulates smooth muscle (SM) alpha-actin expression in rat aortic smooth muscle cells (SMCs). Nuclear run-on analysis and transfection studies indicated that the effects of Ang II on SM alpha-actin were mediated at least in part at the transcriptional level. Transfection of various rat SM alpha-actin promoter/chloramphenicol acetyltransferase (CAT) constructs into SMCs demonstrated that the first 155 bp of the SM alpha-actin promoter was sufficient to confer maximal Ang II responsiveness, conferring an approximately 4-fold increase in reporter activities in these SMCs compared with vehicle-treated SMCs. Mutation of either of two highly conserved CArG elements, designated A (-62) and B (-112), completely abolished Ang II-induced increases in reporter activity, whereas mutation of a homeodomain-like binding sequence at -145 (ATTA) reduced reporter activity by half. Results of EMSAs showed that nuclear extracts from Ang II-treated SMCs exhibited enhanced binding activity of serum response factor (SRF) to the CArG elements and of a homeodomain factor, MHox, to the ATTA element. Northern analyses showed that Ang II also stimulated marked increases in MHox mRNA levels. Western analyses demonstrated that Ang II-induced increases in SRF binding were not due to increased SRF protein expression. Recombinant MHox markedly enhanced binding activity of SRF in EMSAs. Finally, MHox overexpression transactivated a SM alpha-actin promoter/CAT reporter construct by approximately 3.5-fold in transient cotransfection studies. These results provide evidence for involvement of a homeodomain transcription factor, MHox, in Ang II-mediated stimulation of SM alpha-actin via a CArG/SRF-dependent mechanism.
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PMID:Angiotensin II-induced stimulation of smooth muscle alpha-actin expression by serum response factor and the homeodomain transcription factor MHox. 931 42

We used transgenic mice to identify cis-active regions of the human pulmonary surfactant protein C (SP-C) gene that impart tissue- and cell-specific expression in vivo in the lung. Approximately 3.7 kb of genomic SP-C DNA upstream of the transcription start site was sufficient to direct chloramphenicol acetyltransferase (CAT) reporter gene expression specifically in bronchiolar and alveolar epithelial cells of the lung. To further define cis-active regulatory elements that mediate cell-specific expression, we tested deletions of the parental 3.7-kb human SP-C sequence in transgenic mice. Tissue CAT assays of mice generated with truncations or overlapping internal deletions of the 3.7-kb construct functionally map alveolar cell-specific regulatory elements to within -215 bp of the SP-C promoter. Analysis of SP-C promoter deletions demonstrate that sequences between -3.7 kb and -1.9 kb contain enhancer sequences that stimulate SP-C transgene expression. In situ hybridization studies demonstrate that deletion of the -1,910- to -215-bp region abolishes the ectopic bronchiolar expression seen with the original 3.7-kb SP-C promoter construct. Comparison of sequences from -215 to +1 bp identified consensus binding sites for the homeodomain transcription factor thyroid transcription factor-1 (TTF-1). Cotransfection assays of the human 3.7-kb SP-C or -1,910- to -215-bp SP-C deletion construct with a TTF-1 expression plasmid demonstrates that TTF-1 transactivates the human SP-C gene. These results suggest that the TTF-1 cis-active sites are important in directing cell-specific expression of the SP-C gene in vivo.
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PMID:Human SP-C gene sequences that confer lung epithelium-specific expression in transgenic mice. 1078 23

PDX-1 is a homeodomain transcription factor whose targeted disruption results in a failure of the pancreas to develop. Mutations in the human pdx-1 gene are linked to an early onset form of non-insulin-dependent diabetes mellitus. PDX-1 binds to and transactivates the promoters of several physiologically relevant genes within the beta-cell, including insulin, glucose transporter 2, glucokinase, and islet amyloid polypeptide. This study focuses on the mechanisms by which PDX-1 activates insulin gene transcription. To evaluate the role of PDX-1 in transcription of the insulin gene, a chloramphenicol acetyltransferase reporter construct was designed with a single yeast GAL4-DNA binding site in place of the A3/PDX-1 binding element in the rat insulin II enhancer. In the presence of GAL4:PDX chimeras containing N-terminal transactivation domain sequences, this GAL4-substituted insulin construct was active in PDX-1-expressing beta-cells and not non-beta-cells. PDX-1 activation was mediated through three highly conserved segments of the transactivation domain. In addition, when cotransfected together with the GAL4-substituted insulin enhancer reporter gene in glucose-responsive MIN-6 beta-cells, glucose-induced activation is observed with GAL4:PDX-1 but not with fusions of the heterologous activation domains from herpes virus VP16 or adenovirus-5 E1A proteins. Using A3 element-substituted GAL4 insulin enhancer reporter constructs containing mutations in two additional key control elements, E1 and C1, we also show that full activation requires cooperative interactions between other enhancer-bound factors, particularly the E1 element activators. In contrast, the activity of the VP16 activation factor was not dependent on the activators of either the E1 or C1 sites. These results suggest that the PDX-1 transactivation domain is specifically required for appropriate regulation of insulin enhancer function in beta-cells.
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PMID:The PDX-1 activation domain provides specific functions necessary for transcriptional stimulation in pancreatic beta-cells. 1111 22