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

The brain isozyme of creatine kinase (CKB) is a major component of the estrogen-induced proteins in the rat uterus. Hormonal specificity of this response was studied in cotransfection assays using the rat CKB promoter linked to the bacterial chloramphenicol acetyltransferase gene. Response was specific for estrogen as 17 beta-estradiol in the presence of estrogen receptor dramatically stimulated the CKB promoter. This induction was completely blocked by the estrogen antagonist ICI 164,384. Nuclear receptors for progesterone, androgen, glucocorticoid and vitamin D did not significantly activate the CKB promoter in the presence of their respective ligands. Creatine kinase (CK) activity was analyzed in decidualized mouse uterus to assess estrogenic activity in vivo. Upon oil stimulation, uterine horns of day 4 pseudopregnant mice underwent a dramatic outgrowth in response to endogenous progesterone. This response was accompanied by a significant decrease in CK activity from a control value of 1.44 +/- 0.25 to 0.38 +/- 0.08 IU/mg protein (P < 0.001), indicating that the action of estrogen was suppressed. Treatment of females one day prior to oil-stimulation with progesterone receptor antagonists, RU486 (Mifepristone) or ZK299 (Onapristone), or with a monoclonal antibody to progesterone (DB3), abolished decidualization, and also restored the CK activity to the control value. These results suggest that CK can be used as a specific cellular marker to detect unopposed estrogen action in the mouse uterus associated with progesterone withdrawal or receptor blockade.
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PMID:Creatine kinase activity as an indicator of unopposed estrogen action in the mouse uterus associated with anti-progesterone treatment. 803 8

We have examined the effect of 1,25-dihydroxyvitamin D3 on the promoter activity of the atrial natriuretic peptide (ANP) gene in cultured neonatal rat atrial myocytes. In acute transfection studies 1,25-dihydroxyvitamin D3 inhibited the expression of a human ANP (hANP) promoter-driven chloramphenicol acetyltransferase reporter (-1150 hANP CAT) in a dose-dependent fashion (10(-10)-10(-8) M). When an expression vector for the vitamin D receptor (VDR) (pSVL-VDR) was introduced together with the reporter plasmid, there was a significant ligand-dependent amplification of the vitamin D-dependent inhibition. Deletion analysis of the 5'-flanking sequence localized the suppressible promoter sequence to within 104 base pairs of the transcription start site of the hANP gene. Thyroid hormone, glucocorticoid, estrogen, and retinoic acid receptor were incapable of mimicking the VDR-dependent inhibition. Retinoid X receptor, on the other hand, effected a significant reduction in hANP promoter activity which was at least additive with that produced by the liganded VDR. The VDR-dependent inhibition displayed promoter selectivity. Both the SV40 promoter and a conventional vitamin D response element linked to a truncated SV40 promoter were activated by the liganded vitamin D receptor, whereas the Rous sarcoma virus promoter was unaffected. On the other hand, the cardiac-specific troponin T promoter was suppressed in a fashion similar to ANP. These findings imply a potentially important role for vitamin D3 in the regulation of gene transcription in myocardial cells.
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PMID:Negative regulation of the human atrial natriuretic peptide gene by 1,25-dihydroxyvitamin D3. 810 67

To understand the molecular mechanisms underlying the regulation of hepatocyte growth factor (HGF) gene expression and to define the DNA sequences essential for its cell-type specific and inducible expression, we have isolated and characterized the 5'-flanking region of the HGF gene. A genomic clone containing 2.8 kilobases of the 5'-flanking region of the HGF gene has been isolated from a mouse liver genomic library. Sequence analysis showed that the promoter region of the mouse HGF gene contains a noncanonical TATA box (ATAAA). Further analysis of the 5'-flanking region revealed a number of putative regulatory elements, such as four interleukin-6 response elements (IL-6 RE), two potential binding sites for NF-IL6, a TGF-beta inhibitory element (TIE), a cAMP response element (CRE), two estrogen response elements (ERE) including one located in the first intron, a potential vitamin D response element (VDRE) which overlaps a chicken ovalbumin upstream promoter (COUP) transcription factor binding element, two liver-specific transcription factor (C/EBP) binding sites, and a B cell- and macrophage-specific transcriptional factor binding site (PU.1/ETS). To determine the location of sites that may be critical for the function of the HGF promoter, we constructed a series of chimeric genes containing variable regions of the 5'-flanking sequence of HGF gene and the coding region for chloramphenicol acetyltransferase (CAT). Transient transfection of chimeric plasmids demonstrated that the mouse HGF gene promoter containing 70 base pairs of the 5'-flanking sequences were active in mouse fibroblast NIH 3T3 cells and in human endometrial carcinoma RL95-2 cells. This basal transcription activity of the HGF promoter was modulated in NIH 3T3 and RL95-2 cells by multiple upstream elements. Three positive elements were identified at positions -2848 to -2674, -1386 to -1231, and -699 to -274, and three negative candidate elements were mapped to positions -1652 to -1386, -964 to -699, and -274 to -70, respectively. By the combination of a series of 5'-end deletion and internal deletion, a cell type-specific negative regulatory element in RL95-2 cells was localized to the nucleotide position -964 to -699. Moreover, the reporter plasmid containing interleukin 6 (IL-6) response element was responsive to IL-6 stimulation in stably transfected NIH 3T3 cells. Our findings revealed a complex pattern of transcriptional regulation of the mouse HGF gene expression.
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PMID:Structural and functional characterization of the mouse hepatocyte growth factor gene promoter. 830 76

Osteocalcin is a major noncollagenous protein of bone regulated by 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] and is believed to be expressed only by differentiated osteoblasts. We introduced a 3.9-kilobase human osteocalcin gene promoter (hOCP)-chloramphenicol acetyltransferase (CAT) fusion gene into the germ line of mice. Examination of tissue extracts from these transgenic mice demonstrated that the expression of CAT was restricted to bone-associated tissues and the brain. Immunohistochemical staining of femur tissue sections using CAT antibodies localized the production of CAT protein to osteoblasts and maturing chondrocytes. Previous studies via transient transfection into osteoblast-like cells have identified a vitamin D response element approximately 500 basepairs up-stream of the hOCP capable of mediating 1,25-(OH)2D3 induction. As a consequence, regulation of the transgene was examined in homozygous transgenic lines for sensitivity to 1,25-(OH)2D3. Hormonal deficiency was created using a low calcium diet supplemented with 0.8% SrCl2 for 7 days and was restored in experimental mice by injection of 25 ng 1,25-(OH)2D3/day, ip, for 3 days. The low vitamin D3 diet decreased CAT activity several-fold in extracts from calvaria, femur, and brain compared to that in mice maintained on a normal diet, while 1,25-(OH)2D3 supplementation restored and enhanced CAT activity over control values. These data demonstrate that hOCP is sufficient to direct osteoblast-specific 1,25-(OH)2D3-sensitive gene expression in mice in addition to the unexpected regulatable expression in brain tissue.
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PMID:The human osteocalcin promoter directs bone-specific vitamin D-regulatable gene expression in transgenic mice. 848 81

The rat Calbindin-D9K (CaBP9K) gene is mainly expressed in intestine, uterus, and lung and is regulated in a complex tissue-specific manner. To analyze the role of potential regulatory elements, previously defined by DNaseI hypersensivity, we made transgenic mice containing truncated rat CaBP9K fusion gene with simian virus 40 large T antigen and the chloramphenicol acetyltransferase as reporter genes. The transgenes contained CaBP9K promoter fragments with 5' end points at -4400, -1011, and -117 base pairs (bp), whereas the 3' end points was at +365 bp. Northern blot analysis of T antigen expression and chloramphenicol acetyltransferase enzyme-linked immunosorbent assay indicated that a positive element, probably the distal intestine-specific DNaseI HS, necessary to target the expression of the transgene in the intestine, is present between -4400 and -1011 bp. The cephalo-caudal gradient of expression of the transgene along the small intestine was similar to those of the endogenous gene, but an ectopic expression of the transgene was observed in the colon. The -1011 transgene was expressed in epithelial alveolar cells of the lung, in renal proximal tubule cells, and in uterine myometrium, as judged from immunocytochemical, histological, and Northern blot analyses. The shortest, -117 construct was only expressed in uterine myometrium, and it was under a strict estrogen dependence like the endogenous gene. Finally, responsiveness to vitamin D in the duodenum was observed with the largest, -4400 construct. Thus, different tissues utilize distinct cis-acting elements to direct and regulate the expression of the rat CaBP9K gene.
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PMID:Tissue-specific and hormonal regulation of calbindin-D9K fusion genes in transgenic mice. 866 93

Mutations in the vitamin D receptor (VDR) result in hereditary 1,25-dihydroxyvitamin D3-resistant rickets (HVDRR), an autosomal recessive disease caused by target organ resistance to the action of 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3]. In this study, we investigated the molecular basis of HVDRR in a child from Saudi Arabia who was previously shown to be resistant to 1,25-(OH)2D3 action, but whose cultured skin fibroblasts exhibited normal [3H]1,25-(OH)2D3 binding. Using the PCR, exons 2 and 3 of the VDR gene that encode the DNA-binding region of the receptor were amplified and sequenced. A novel point mutation at nucleotide 252 in exon 2 of the VDR was identified. This missense mutation (GGC to GAC) resulted in the conversion of glycine to aspartic acid at amino acid position 46 (G46D), located at the base of the first zinc finger. This single base change was introduced into wild-type VDR complementary DNA by site-directed mutagenesis, and the mutant VDR was then expressed in COS-1 cells. The expressed mutant VDR displayed a normal binding affinity (Kd = 1.2 x 10(-10) mol/L) for [3H]1,25-(OH)2D3 as determined by Scatchard analysis. However, the mutant VDR was shown to have reduced binding affinity for DNA by DNA-cellulose chromatography. In COS-7 cells cotransfected with a vitamin D response element-chloramphenicol acetyltransferase reporter construct and the mutant VDR complementary DNA expression vector, the mutant VDR was unable to activate gene transcription in cells treated with up to 100 nmol/L 1,25-(OH)2D3. Restriction fragment length polymorphism analysis using MwoI restriction digests of exon 2 demonstrated that the affected child is homozygous for the mutation, whereas the child's father is heterozygous and a carrier of the defective allele. In conclusion, a new mutation was identified in exon 2 of the VDR gene. This mutation, which occurs in the first zinc finger of the DNA-binding domain of the receptor, blocks 1,25-(OH)2D3 action and leads to the syndrome of HVDRR.
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PMID:A novel mutation in the deoxyribonucleic acid-binding domain of the vitamin D receptor causes hereditary 1,25-dihydroxyvitamin D-resistant rickets. 867 79

The genomic action of calcitriol is mediated through the interaction of the calcitriol receptor (VDR) with vitamin D response elements (VDREs) of the target genes. We have shown that the interaction of VDRs with VDREs is inhibited by uremic toxins. We hypothesize that uremic toxins form Schiff bases with the lysine residues of the VDR DNA binding domain and inhibit the VDR interaction with the VDRE. In this study, pyridoxal 5'-phosphate was used as a probe to test Schiff base formation as the inhibitory mechanism, since it forms Schiff bases with steroid receptors. Pyridoxal 5'-phosphate inhibited the VDR binding to the VDREs and chemically modified the DNA binding domain of the VDR in vitro. The inhibition was reversed when pyridoxal 5'-phosphate was preincubated with lysine. Further, this chemical agent also blocked the production of chloramphenicol acetyltransferase (CAT) enzyme induced by calcitriol in cells transfected with a constructed VDRE attached to a CAT reporter gene. This finding is consistent with the hypothesis that pyridoxal 5'-phosphate could interact with the VDR and impair its DNA binding within cells. Since induction of 24-hydroxylase synthesis is a receptor mediated process, we studied the effect of pyridoxal 5'-phosphate on the synthesis of renal 24-hydroxylase in rats. When pyridoxal 5'-phosphate was infused to rats, renal 24-hydroxylase activity was suppressed, consequently, degradation of calcitriol was also reduced in these animals. Thus, chemicals capable of Schiff base formation potentially could alter the physiological function of VDR and calcitriol.
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PMID:Effect of Schiff base formation on the function of the calcitriol receptor. 891 20

Two vitamin D-responsive elements (VDRE-1 and VDRE-2) were recently identified in the 5'-upstream region of the rat 25-hydroxyvitamin D3 24-hydroxylase gene at -151/-137 and -259/-245, respectively. We studied the transcriptional regulation of this gene by vitamin D by means of mutational analysis. Introducing mutations into VDRE-1 and VDRE-2 in the native promoter -291/+9 reduced vitamin D-dependent chloramphenicol acetyltransferase activity by 86 and 41%, respectively. Mutation of the direct repeat -169/-155 located at 3 base pairs upstream of VDRE-1 also caused 50% decrease of chloramphenicol acetyltransferase activity. Connection of the element -169/-155 to VDRE-1 enhanced the vitamin D responsiveness of VDRE-1 5-fold through the heterologous beta-globin promoter. The fragment -291/-102 containing the two VDREs showed two shifted bands in the presence of the vitamin D receptor and retinoid X receptor in gel retardation analysis, and the appearance of the slower migrating band indicates that two sets of receptor complexes bind to this fragment simultaneously. These results demonstrate that VDRE-1 is a stronger mediator of vitamin D function than VDRE-2 due to the presence of the accessory element -169/-155 located adjacent to VDRE-1, although VDRE-2 exhibits a smaller dissociation constant for the vitamin D receptor-retinoid X receptor complex than VDRE-1.
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PMID:Functional assessment of two vitamin D-responsive elements in the rat 25-hydroxyvitamin D3 24-hydroxylase gene. 894

Calbindin-D28k, a calcium binding protein that is thought to act as a facilitator of calcium diffusion in intestine and kidney, is known to be regulated by vitamin D in these tissues. Calbindin-D28k is also present in pancreatic beta cells, but its function in these cells is not known. To determine a role for calbindin-D28k in the beta cell, rat calbindin-D28k was overexpressed in the pancreatic beta cell line RIN 1046-38 by transfection of calbindin in expression vector, and changes in insulin mRNA were examined. Five transfected RIN cell clones were found to overexpress calbindin 6- to 35-fold as determined by radioimmunoassay. Northern blot analysis revealed increases in abundance in calbindin mRNA (>20-fold for most clones). Overexpressed calbindin was functional because it was capable of buffering calcium in response to a rapid calcium influx induced by 1 and 5 microM calcium ionophore. In cells transfected with calbindin, there was a marked increase in the expression of insulin mRNA (>20-fold for most clones compared with vector transfected cells). Besides an increase in insulin mRNA, calbindin overexpression was also associated with an increase in insulin content and release (a 5.8-fold increase in insulin release was noted for clone C10, and a 54-fold increase was noted for clone C2). To begin to address the mechanism whereby overexpression of calbindin results in increased insulin gene expression, calbindin-overexpressing clones were transiently transfected with plasmids incorporating various regions of the rat insulin I (rInsI) promoter linked to the chloramphenicol acetyltransferase coding sequence. Transient transfection with reporter plasmids bearing the regulatory sequences of the rInsI promoter (-345/+1) or five copies of the Far-FLAT minienhancer (-247/-198) from the rInsI promoter suggests that increased insulin mRNA in calbindin transfected cells is due, at least in part, to enhanced insulin gene transcription. These studies provide the first direct evidence (to our knowledge) for a role for calbindin in beta cell function.
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PMID:Transfection and overexpression of the calcium binding protein calbindin-D28k results in a stimulatory effect on insulin synthesis in a rat beta cell line (RIN 1046-38). 905 Aug 87

The biological action of calcitriol is mostly mediated through the interaction of the calcitriol receptor (VDR) with vitamin D response elements (VDREs) of target genes. These interactions produce special proteins that carry out the biological activities of calcitriol. Recently, we showed that the interaction of VDRs with VDREs is inhibited by uremic toxins. We hypothesize that uremic toxins that contain aldehyde or ketone groups potentially could form Schiff bases with lysine residues of the VDR DNA binding domain and inhibit VDR interaction with VDREs. We therefore chose glyoxylate, a compound which has an aldehyde group, to test this hypothesis. In vitro glyoxylate inhibited VDR binding to the osteocalcin and osteopontin VDREs as assessed by electrophoretic mobility shift assay and the inhibition was reversed when glyoxylate was preincubated with lysine. Further, this chemical compound also blocked the induction of chloramphenicol acetyltransferase (CAT) enzyme induced by calcitriol in cells transfected with a calcitriol responsive CAT reporter gene. Since induction of 24-hydroxylase synthesis is a VDR regulated process, we also studied the effect of glyoxylate on the activity of intestinal 24-hydroxylase in rats. This enzyme activity was suppressed in rats infused with glyoxylate. Taken together, our study suggests that glyoxylate could inhibit the interaction of VDR with VDREs and alter the biological action of calcitriol.
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PMID:Effect of glyoxylate on the function of the calcitriol receptor and vitamin D metabolism. 921 44


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