Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The use of thiazide diuretics is associated with increased bone mineral density and, in some studies with reduced incidence of fractures, suggesting a potential role for these drugs in the treatment of osteoporosis. Our objective was to examine the effects of thiazides on osteoblast-like cells using the rat UMR-106 osteosarcoma cell line. Treatment of UMR-106 cells with chlorothiazide caused membrane depolarization and a rise of intracellular calcium but had no effect on adenosine 3,5'-cyclic monophosphate accumulation. The rise of intracellular calcium was partially inhibited by nifedipine and removal of extracellular calcium, indicating calcium uptake from the extracellular media, as well as by thapsigargin or dantrolene, indicating contributions from calcium release from intracellular stores. Reverse transcriptase-polymerase chain reaction was used to isolate a partial cDNA clone for the thiazide-sensitive sodium-chloride cotransporter from UMR-106 cells that hybridized to 5.0- and 11.0-kilobase mRNAs when Northern blot analysis was conducted. Antisense oligonucleotides to the sodium-chloride cotransporter specifically inhibited the chlorothiazide-induced depolarization and rise of intracellular calcium and reduced immunofluorescence staining for the sodium-chloride cotransporter protein in UMR-106 cells. We conclude that thiazide diuretics inhibit sodium-chloride cotransporter activity in UMR-106 cells, thereby altering intracellular calcium regulation. These results provide evidence for direct effects of thiazide diuretics on bone cells.
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PMID:Expression of the sodium-chloride cotransporter in osteoblast-like cells: effect of thiazide diuretics. 903 17

To test the hypothesis that guanosine 3',5'-cyclic monophosphate (cGMP) regulates ion transport in airway epithelial cells, we measured short-circuit current (I(sc)) and (22)Na+ fluxes in primary cultured rat tracheal epithelial cells. In Cl- -containing Ringer solution, I(sc) was increased by approximately 17 microA/cm2 after application of 1 mM 8-bromoguanosine 3',5'-cyclic monophosphate (8-BrcGMP), whereas, in Cl- -free solutions, the Na+ -mediated component was approximately 5 microA/cm2, suggesting a cGMP stimulation of Cl-secretory current and a smaller Na+ absorptive current. Inward and net mucosal-to-serosal (22)Na+ flux was doubled in the presence of 2 mM 8-BrcGMP. To determine whether nucleotide-gated channels play a role in this transepithelial Na+ absorption, blockers of nucleotide-gated cation channels were used to inhibit I(sc). The cGMP-stimulated Na+-mediated I(sc) was blocked by as little as 500 nM dichlorobenzamil or 50 microM L-cis-diltiazem, which are known blockers for cyclic nucleotide-gated cation channels. These agents also blocked the basal (non-cGMP-stimulated) current when measured in the presence of 10 microM amiloride, which blocks current through 5-pS amiloride-sensitive Na+ channels. To document whether the distribution of nucleotide-gated nonselective cation channels was consistent with a role in airway epithelial transport, in situ hybridization was performed. In situ hybridization of mRNA encoding for nucleotide-gated cation channels was found in epithelial cell layers of rat trachea, bronchi, bronchioles, and alveolar cells but not in smooth muscle layers or tracheal cartilage. Reverse transcriptase-polymerase chain reaction, restriction enzyme analysis, and sequencing of the cDNA transcribed from mRNA of whole lung and tracheal epithelial cells indicate that a channel highly homologous to the retinal nucleotide-gated nonselective cation channel (CNG1) is present. Thus these data, along with evidence supporting the existence of signal transduction pathways elevating intracellular levels of cGMP, indicate that cGMP regulates transepithelial ion transport in lung epithelial tissues.
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PMID:cGMP stimulates sodium and chloride currents in rat tracheal airway epithelia. 912 27

Angiogenesis is a complex process involving endothelial cell (EC) proliferation, migration, differentiation, and organization into patent capillary networks. Nitric oxide (NO), an EC mediator, has been reported to be antigenic as well as proangiogenic in different models of in vivo angiogenesis. Our aim was to investigate the role of NO in capillary organization using rat microvascular ECs (RFCs) grown in three-dimensional (3D) collagen gels. RFCs placed in 3D cultures exhibited extensive tube formation in the presence of transforming growth factor-beta 1. Addition of the NO synthase (NOS) inhibitors L-nitro-arginine methylester (L-NAME, 1 mmol/L) or L-monomethyl-nitro-l-arginine (1 mmol/L) inhibited tube formation and the accumulation of nitrite in the media by approximately 50%. Incubation of the 3D cultures with excess L-arginine reversed the inhibitory effect of L-NAME on tube formation. In contrast to the results obtained in 3D cultures, inhibition of NO synthesis by L-NAME did not influence RFC proliferation in two-dimensional (2D) cultures or antagonize the ability of transforming growth factor-beta 1 to suppress EC proliferation in 2D cultures. Reverse transcriptase-polymerase chain reaction revealed the constitutive expression of all three NOS isoforms, neuronal, inducible, and endothelial NOSs, in 2D and 3D cultures. Moreover, Western blot analysis demonstrated the presence of immunoreactive protein for all NOS isoforms in 3D cultures of RFCs. In addition, in the face of NOS blockade, co-treatment with the NO donor sodium nitroprusside or the stable analog of cGMP, 8-bromo-cGMP, restored capillary tube formation. Thus, the autocrine production of NO and the activation of soluble guanylate cyclase are necessary events in the process of differentiation and in vitro capillary tube organization of RFCs.
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PMID:Nitric oxide synthase inhibitors attenuate transforming-growth-factor-beta 1-stimulated capillary organization in vitro. 913 6

While previous work has demonstrated that monosaccharides can be absorbed from bile, studies of sugar transport by the biliary, epithelia (i.e., cholangiocytes) are lacking. Using a novel model of polarized rat cholangiocytes in primary culture, designated normal rat cholangiocytes (NRC), we examined directly the uptake and transcellular transport of a nonmetabolizable monosaccharide, methyl alpha-D-glucopyranoside (AMG). When the apical or basolateral domain of cholangiocytes was exposed to radiolabeled AMG or sucrose (control), only apical absorption of AMG was evident. This apical uptake was time dependent, saturable, and significantly inhibited (> or = 90%) by removal of Na+ or in the presence of phlorizin (0.1 mM), a competitive inhibitor of the Na(+)-glucose cotransporter. The transcellular flux of AMG was also polar (i.e., apical to basolateral). Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed the presence of the transcript for the specific Na(+)-glucose cotransporter SGLT1 in NRC and in freshly isolated cholangiocytes but not in purified hepatocytes; in contrast, the transcript for SGLT2 was absent in all liver samples. In situ RT-PCR on frozen sections of normal rat liver showed that SGLT1 was expressed exclusively in cholangiocytes. Immunoblot analysis using a specific polyclonal antibody for the facilitative glucose transporter GLUT1 demonstrated it to be present in vesicles derived from NRC enriched in basolateral plasma membrane domains. Our data are consistent with the concept that SGLT1 is present on the apical domain of biliary epithelia and, in conjunction with GLUT1 on the basolateral domain, accounts for glucose absorption from bile.
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PMID:Kinetic and molecular identification of sodium-dependent glucose transporter in normal rat cholangiocytes. 917 27

We have previously shown in inbred strains of mice which naturally develop systemic lupus erythematosus that kidney C3, C2, C4 and factor B gene expression increases coincidently with the occurrence of glomerulonephritis, suggesting that local tissue complement gene expression could contribute to the pathogenesis of immune complex injury. In this study, we investigated the synthesis of complement proteins in glomerular epithelial cells (GECs) and its regulation. Using biosynthetic labelling, immunoprecipitation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis, we demonstrated that GECs synthesized C1r, C1s, C1 inhibitor, C3, C2 and factor B. Interferon-gamma induced increases in the synthesis of all these proteins. Both factor B and C3 proteins were increased following addition of either IL-1beta, IL-6 or TNF-alpha to GEC cultures; however, these cytokines did not increase either C2, C1r, C1s or C1-inhibitor biosynthesis. Lipopolysaccharide affected the biosynthesis of these proteins in a similar way. A semiquantitative analysis of the mRNA expression of some of these proteins by reverse-transcriptase polymerase chain reaction showed that these cytokine effects were pretranslational as there was enhancement of factor B mRNA expression by IL-1, TNF-alpha, IFN-gamma, IL-6 and endotoxin, but only IFN-gamma enhanced C1-inhibitor and C4 mRNA expression. These results may be of significance in the immunopathogenesis of glomerulonephritis, where it is likely that local complement production in GECs is independently regulated by cytokines, derived from resident glomerular mesangial cells or infiltrating monocyte/macrophages and T cells.
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PMID:Differential cytokine regulation of complement proteins in human glomerular epithelial cells. 922 27

The unusual hypotonicity of equine blastocyst fluid has prompted us to investigate the role of sodium- and potassium-dependent adenosine triphosphatase (Na+,K+-ATPase) in the process of fluid accumulation in the horse conceptus. Nine mares were used for the experiments. Reverse transcriptase polymerase chain reaction was conducted on two sets of five conceptuses recovered between 12 and 28 days (+/- 1 day) after ovulation. Messenger RNAs encoding the alpha1 and beta1 subunit isoforms of Na+,K+-ATPase were detected in all embryonic tissues examined. Western blot analysis showed that alpha1 and beta1 subunits are both present in Day 15 conceptuses. Trophoblast tissues from 19 conceptuses between 8 and 31 days after ovulation were stained immunohistochemically using primary antibodies against the alpha1 and beta1 subunit isoforms of the Na+,K+-ATPase. Both isoforms were detected in all sections. Trophoblastic vesicles, prepared from 6 conceptuses between 12 and 14 days after ovulation, were used to investigate the inhibition of blastocyst expansion with ouabain after collapse induced with cytochalasin D. In normal medium there was a mean 3-fold increase, and in ouabain (10(-6) M) a mean 3-fold decrease, in the volume of vesicles that had been partially collapsed with cytochalasin D. We therefore conclude that, despite the hypotonicity of the blastocyst fluid in the early horse conceptus, the Na+,K+-ATPase plays a role in its accumulation, as in other species.
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PMID:Evidence for the presence of sodium- and potassium-dependent adenosine triphosphatase alpha1 and beta1 subunit isoforms and their probable role in blastocyst expansion in the preattachment horse conceptus. 928 1

Binding of small RNAs by the RNA-dependent RNA polymerase of coliphage Qbeta was studied utilizing a fluorometric assay. A DNA oligonucleotide probe of sequence 5'-d(TTTTTCC) was 5'-end-labeled with pyrene. In this construct, the proximal thymine residues efficiently quench the fluorophore emission in solution. Upon stoichiometric binding of one probe per polymerase molecule, the pyrene steady-state fluorescence increases by two orders of magnitude, the fluorescence anisotropy increases, and a long fluorescence lifetime component of 140 ns appears. With addition of replicable RNA, steady-state fluorescence decreases in a concentration dependent manner and the long lifetime component is lost. This observation most likely reflects displacement of the pyrene-labeled probe from the proposed nucleic acid binding site II of Qbeta replicase. The effect was utilized to access binding affinities of different RNAs to this site in a reverse titration assay format. In 10 mM sodium phosphate (pH 7.0), 100 mM NaCl, at 16 degrees C, equilibrium dissociation constants for different template midi- and minivariant RNAs were calculated to be in the nanomolar range. In general, the minus and plus strands, concomitantly synthesized by Qbeta replicase during replication, exhibited discriminative affinities, while their hybrid bound less efficiently than either of the single strands. Different non-replicable tRNAs also bound to the polymerase with comparable dissociation constants. By titration with DNA homo-oligonucleotides it was shown that the probed site on Qbeta replicase does not require a 2' hydroxyl group for binding nucleic acids, but recognizes pyrimidine residues. Its interaction with thymine is lost in an A.T base-pair, while that with cytosine is retained after Watson-Crick base-pairing. These findings can explain the affinities of RNA-Qbeta replicase interactions reported here and in earlier investigations. The sensitivity of the described fluorometric assay allows detection of RNA amplification by Qbeta replicase in real-time.
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PMID:Probing RNA-protein interactions using pyrene-labeled oligodeoxynucleotides: Qbeta replicase efficiently binds small RNAs by recognizing pyrimidine residues. 935 49

Although bile acid transport by bile duct epithelial cells, or cholangiocytes, has been postulated, the details of this process remain unclear. Thus, we performed transport studies with [3H]taurocholate in confluent polarized monolayers of normal rat cholangiocytes (NRC). We observed unidirectional (i.e., apical to basolateral) Na+-dependent transcellular transport of [3H]taurocholate. Kinetic studies in purified vesicles derived from the apical domain of NRC disclosed saturable Na+-dependent uptake of [3H]taurocholate, with apparent Km and Vmax values of 209+/-45 microM and 1.23+/-0.14 nmol/mg/10 s, respectively. Reverse transcriptase PCR (RT-PCR) using degenerate primers for both the rat liver Na+-dependent taurocholate-cotransporting polypeptide and rat ileal apical Na+-dependent bile acid transporter, designated Ntcp and ASBT, respectively, revealed a 206-bp product in NRC whose sequence was identical to the ASBT. Northern blot analysis demonstrated that the size of the ASBT transcript was identical in NRC, freshly isolated cholangiocytes, and terminal ileum. In situ RT-PCR on normal rat liver showed that the message for ASBT was present only in cholangiocytes. Immunoblots using a well-characterized antibody for the ASBT demonstrated a 48-kD protein present only in apical membranes. Indirect immunohistochemistry revealed apical localization of ASBT in cholangiocytes in normal rat liver. The data provide direct evidence that conjugated bile acids are taken up at the apical domain of cholangiocytes via the ASBT, and are consistent with the notion that cholangiocyte physiology may be directly influenced by bile acids.
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PMID:Rat cholangiocytes absorb bile acids at their apical domain via the ileal sodium-dependent bile acid transporter. 938 34

Although bile salts are toxic to the liver at high plasma concentrations, the effects of physiological concentrations of bile salts on normal hepatic function are poorly understood. We examined the effect of taurocholate (TC) on the basolateral uptake of [3H]TC in WIF-B cells, a hybrid cell line stably exhibiting in vitro the structural and functional polarity of hepatocytes. Cells were grown in the absence or presence of TC (50 micromol/L) over 12 days, and then incubated with [3H]TC concentrations ranging from 1 to 250 micromol/L. For both control and TC-grown cells, uptake of [3H]TC was linear over 2 minutes. In control cells, the Km for [3H]TC Na+-dependent uptake over 1 minute was 6 +/- 5 micromol/L, and the Vmax was 45 +/- 6 pmol TC/mg protein/min (+/- SEM). TC-grown cells exhibited no significant change in Km but showed a doubling of Vmax to 87 +/- 6 pmol TC/mg protein/min (P < .005). In both control and TC-grown cells, maximal uptake of [3H]TC occurred following 10 to 12 days in culture, with TC-grown cells consistently showing greater rates of [3H]TC uptake from 4 to 14 days in culture. Western blots immunostained for the basolateral Na+-dependent plasma membrane protein, ntcp, revealed the appropriate approximately 50-kd band in control and TC-grown cells, and confocal immunofluorescence microscopy demonstrated staining along the basolateral plasma membrane. Northern blots hybridized with a cDNA probe directed against ntcp indicated a modest TC-induced increase in mRNA levels. Reverse-transcriptase polymerase chain reaction (RT-PCR) using RNA isolated from WIF-B cells and oligonucleotide primers specific for rat ntcp or human NTCP transcripts revealed only the presence of the rat ntcp transcript. We conclude that bile salts, at concentrations normally found in mammalian portal blood, may be capable of promoting enhanced hepatocellular bile salt uptake via an increase in basolateral Na+-dependent plasma membrane transport capacity.
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PMID:Enhanced Na+-dependent bile salt uptake by WIF-B cells, a rat hepatoma hybrid cell line, following growth in the presence of a physiological bile salt. 942 37

Cholesteryl ester transfer protein (CETP) is a plasma protein involved in the reverse cholesterol transport and expressed in several human tissues and cell lines. We studied CETP expression in Caco-2 cell line, a model of the human enterocyte epithelium. By reverse-transcriptase polymerase chain reaction, we could demonstrate that in basal condition Caco-2 cells have a low rate of expression of active CETP mRNA. Furthermore, we found that even in this cell line CETP mRNA alternative splicing occurs with deletion of exon 9 sequence. Densitometric analysis of the in vitro amplified fragments showed that under basal conditions about 60% of reverse transcribed CETP cDNA corresponds to exon 9-deleted transcripts. After challenge with 50 microM sodium oleate, there is a approximately 2 fold increase in the transcription rate of the full-length CETP cDNA, as measured by competitive PCR, which is accompanied to an increased activity measured in the cell-conditioned medium. On the contrary, no significant change is seen in the amount of exon 9-deleted cDNA. Consequently, an inversion in the ratio of full-length and exon 9-deleted CETP cDNA is evident, suggesting that sodium oleate selectively enhances the expression of full-length CETP mRNA.
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PMID:Alternative splicing of human plasma cholesteryl ester transfer protein mRNA in Caco-2 cells and its modulation by oleic acid. 945 Jun 51


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