EC:2.7.7.48 - FACTA Search

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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 presence and functional significance of the extracellular calcium-sensing receptor (CaR) on human pancreatic beta-cells were investigated. Reverse transcriptase-polymerase chain reaction with primers for the extracellular domain of the CaR expressed in human parathyroid-secreting cells identified a product of the expected size in human pancreatic mRNA. Immunocytochemistry using an antibody against the extracellular region of CaR showed extensive immunoreactivity in insulin- and glucagon-containing cells but not in somatostatin-containing cells. In perifusion experiments, elevations in extracellular Ca2+ produced initial transient increases in insulin secretion, followed by a concentration-dependent and prolonged, but reversible, inhibition of secretion. Microfluorometric measurements of intracellular Ca2+ ([Ca2+]i) in isolated human beta-cells demonstrated that elevations in extracellular Ca2+ (0.5-10 mmol/l) caused rapid elevations in [Ca2+]i. Increases in extracellular Ca2+ caused small increases in the cyclic AMP content of whole human islets. These studies demonstrated that human beta-cells express an extracellular CaR and that activation of the receptor inhibits basal and nutrient-stimulated insulin secretion. The transduction mechanism that mediates this inhibitory effect is unknown, but our results suggest that it is unlikely to be through the adenylate cyclase-cyclic AMP pathway or through the phospholipase C-IP3 pathway. This CaR-mediated inhibitory mechanism may be an important autoregulatory mechanism in the control of insulin secretion.
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PMID:The extracellular calcium-sensing receptor on human beta-cells negatively modulates insulin secretion. 1086 62

1. The mobilization of Ca2+ by purinoceptor activation and the relative contributions of intra- and extracellular sources of Ca2+ were investigated using microfluorimetric measurements of fura-2 loaded in cultured neurones from rat intracardiac ganglia. 2. Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed expression of mRNA for the G protein-coupled P2Y2 and P2Y4 receptors. 3. Brief application of either 300 microM ATP or 300 microM UTP caused transient increases in [Ca2+]i of 277 +/- 22 nM and 267 +/- 39 nM, respectively. Removal of external Ca2+ did not significantly reduce these [Ca2+]i responses. 4. The order of purinoceptor agonist potency for [Ca2+]i increases was ATP = UTP > 2-MeSATP > ADP >> adenosine, consistent with the profile for P2Y2 purinoceptors. ATP- and UTP-induced rises in [Ca2+]i were completely and reversibly blocked by 10 microM PPADS (a P2 purinoceptor antagonist) and partially inhibited by 100 microM suramin (a relatively non-specific purinoceptor antagonist). 5. In the presence of the endoplasmic reticulum Ca2+-ATPase inhibitor cyclopiazonic acid (10 microM) in Ca2+-free media, the [Ca2+]i responses evoked by ATP were progressively decreased and abolished. 6. ATP- and UTP-induced [Ca2+]i rises were insensitive to pertussis toxin, caffeine (5 mM) and ryanodine (10 microM) but were significantly reduced by U-73122, a phospholipase C (PLC) inhibitor. 7. In fura-2-loaded cells, perforated patch whole-cell recordings show that ATP and UTP evoked slow outward currents at -60 mV, concomitant with the rise in [Ca2+]i, in approximately 30 % of rat intracardiac neurones. 8. In conclusion, these results suggest that in r intracardiac neurones, ATP binds to P2Y2 purinoceptors to transiently raise [Ca2+]i and activate an outward current. The signalling pathway appears to involve a PTX-insensitive G protein coupled to PLC generation of IP3 which triggers the release of Ca2+ from a ryanodine-insensitive Ca2+ store(s).
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PMID:P2Y purinoceptor activation mobilizes intracellular Ca2+ and induces a membrane current in rat intracardiac neurones. 1089 18

Human bronchial smooth muscle (HBSM) contraction is implicated in a variety of respiratory diseases, including asthma. Yet, the presence of an operative calcium-induced calcium release (CICR) mechanism, identified in various smooth muscles, has not been established in HBSM. We therefore studied Ca-releasing mechanisms in HBSM obtained at thoracotomy with special attention to ryanodine-sensitive receptor channels (RyRs). In freshly isolated bronchial myocytes, ryanodine (0.5 to 50 microM) and caffeine (1 to 25 mM) induced transient increases in the cytoplasmic calcium concentration ([Ca(2+)](i)). Higher ryanodine concentrations (> 100 microM) inhibited the caffeine-induced [Ca(2+)](i) response, which was also blocked in the presence of tetracaine (300 microM) or ruthenium red (200 microM), two potent CICR inhibitors. In HBSM strips, caffeine induced a transient contraction which, likewise, was inhibited by ryanodine and tetracaine. However, ryanodine (200 microM) modified neither the [Ca(2+)](i) response nor the contraction induced by K(+)-rich (110 mM) solution. Reverse transcriptase/polymerase chain reaction (RT-PCR) and RNase protection assay performed in HBSM have revealed the existence of mRNAs encoding only the type 3 RyR. We also characterized acetylcholine-induced [Ca(2+)](i) and contractile responses. None of these responses was altered by ryanodine or by tetracaine. These results demonstrate, for the first time, the existence of functional RyRs in HBSM cells which, owing to the type of isoform or the amount of protein expressed, are not involved, under physiologic conditions, in depolarization- or agonist-induced contraction.
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PMID:Human isolated bronchial smooth muscle contains functional ryanodine/caffeine-sensitive Ca-release channels. 1093 7

The calcium-dependent cell adhesion molecules, cadherins, regulate intercellular junction formation, cell sorting, and the establishment of cell polarity. Their important role in tissue remodeling suggests an involvement in ovarian cellular rearrangements throughout postnatal development. The ovary has a complex topology, and the ovarian follicle undergoes significant cellular rearrangements during its development. Cadherins have been detected previously in whole ovaries and in ovarian cells and cell lines with some immunolocalization in fetal and adult ovaries. This study examines the expression and localization of N- and E-cadherin throughout prepubertal ovarian and follicular development in the rat. We analyzed ovarian cadherin expression in rats from Day 19-20 of gestation to 25 days postpartum, during which follicle formation and folliculogenesis are the dominant ovarian events. Reverse transcriptase polymerase chain reaction detected N- and E-cadherin mRNA expression in the ovaries at all the ages examined. Semiquantification of Western blots of whole ovary extracts confirmed the presence of ovarian N- and E-cadherin protein at all ages with both showing peak expression at 7 days of age. Immunostaining revealed N- and E-cadherin expression in follicular and extrafollicular cell types, but only E-cadherin showed follicle-stage-dependent expression. The changes in cadherin expression, concurrent with ovarian growth and folliculogenesis, suggest a function for cadherins in the morphological and functional development of the prepubertal rat ovary.
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PMID:Developmental expression and distribution of N- and E-cadherin in the rat ovary. 1095 23

Enhanced phosphorylation of the ribosomal protein s6 kinase, p70(s6k), and the translational repressor, 4E-BP1, are associated with either insulin-induced or amino acid-induced protein synthesis. Hyperphosphorylation of p70(s6k) and 4E-BP1 in response to insulin or amino acids is mediated through the mammalian target of rapamycin (mTOR). In several cell lines, mTOR or its downstream targets can be regulated by phosphatidylinositol (PI) 3-kinase; protein kinases A, B, and C; heterotrimeric G-proteins; a PD98059-sensitive kinase or calcium; as well as by amino acids. Regulation by amino acids appears to involve detection of levels of charged t-RNA or t-RNA synthetase activity and is sensitive to inhibition by amino acid alcohols. In the present article, however, we show that the rapamycin-sensitive regulation of 4E-BP1 and p70(s6k) in freshly isolated rat adipocytes is not inhibited by either L-leucinol or L-histidinol. This finding is in agreement with other recent studies from our laboratory suggesting that the mechanism by which amino acids regulate mTOR in freshly isolated adipocytes may be different than the mechanism found in a number of cell lines. Therefore we investigated the possible role of growth factor-regulated and G-protein-regulated signaling pathways in the rapamycin-sensitive, amino acid alcohol-insensitive actions of amino acids on 4E-BP1 phosphorylation. We found, in contrast to previously published results using 3T3-L1 adipocytes or other cell lines, that the increase in 4E-BP1 phosphorylation promoted by amino acids was insensitive to agents that regulate protein kinase A, mobilize calcium, or inhibit protein kinase C. Furthermore, amino acid-induced 4E-BP1 phosphorylation was not blocked by pertussis toxin nor was it mimicked by the G-protein agonists fluoroaluminate or MAS-7. However, amino acids failed to activate either PI 3-kinase, protein kinase B, or mitogen-activated protein kinase and failed to promote tyrosine phosphorylation of cellular proteins, similar to observations made using cell lines. In summary, amino acids appear to use an amino acid alcohol-insensitive mechanism to regulate mTOR in freshly isolated adipocytes. This mechanism is independent of cell-signaling pathways implicated in the regulation of mTOR or its downstream targets in other cells. Overall, our study emphasizes the need for caution when extending results obtained using established cell lines to the differentiated nondividing cells found in most tissues.
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PMID:Assessment of cell-signaling pathways in the regulation of mammalian target of rapamycin (mTOR) by amino acids in rat adipocytes. 1097 80

The Ca2+ release channel of the sarcoplasmic reticulum (SR) is essential for the release of Ca2+ from intracellular stores and is expressed widely in various excitable cells. It plays a key role particularly in excitation contraction coupling in myocytes in skeletal and cardiac muscle. Three isoforms of the SR Ca2+ release channel have been cloned. Recently coexpression of different isoforms was reported in different animal species and various tissues. In human cardiac tissue, however, isoform expression is not yet established. Therefore the aim of this study was to characterize isoform expression of the SR Ca2+ release channel in the human heart. We examined specific isoform expression of mRNA and proteins of the SR Ca2+ release channel in the four different chambers of the heart and the interventricular septum from explanted human hearts from nonfailing organ donors (n=8). Reverse transcriptase PCR from total cardiac RNA with isoform specific primers and western blots from myocardial homogenates with isoform specific antibodies were performed. Quantification of protein expression was achieved by densitometric scanning and computer analysis and is expressed as densitometric units per microgram of protein. A single band DNA signal was detected by reverse transcriptase PCR for the skeletal isoform 1 and the cardiac isoform 2 and isoform 3 in all regions of the human heart investigated. Specific protein expression was detected in all five myocardial regions of the human heart in western blots for the skeletal isoform I and cardiac isoform 2, and a weaker specific band was also detectable for isoform 3 of the SR Ca2+ release channel. Quantification of protein expression showed significant (P=0.008) lower expression of isoform 1 in the right ventricle (42+/-4 densitometric units/g tissue) and similar expression in all other regions (right atrium 58+/-3; septum 51+/-5, left atrium 54+/-5; left ventricle 51+/-6). Isoform 2 of the SR Ca2+ release channel was also significantly lower (P=0.001) in the right ventricle (33+/-4 densitometric/g tissue) and similar in the other heart chambers (right atrium 42+/-5: septum 41+/-3, left atrium 52+/-6, left ventricle 42+/-3). Differences in isoform 3 of the SR Ca2+ release channel for the various myocardial regions did not reach significant levels (right atrium 45+/-6, right ventricle 38+/-5, septum 49+/-8, left atrium 46+/-7, and in left ventricle 45+/-3 densitometric units/g tissue). In conclusion, all three isoforms of the SR Ca2+ release channel were determined in the human heart at both mRNA and protein levels with different quantitative expression in the different heart chambers. Coexpression of the three different isoforms with different functional properties might increase the complexity of regulation of excitation contraction coupling in the human heart in a chamber specific mode.
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PMID:Isoform expression of the sarcoplasmic reticulum Ca2+ release channel (ryanodine channel) in human myocardium. 1100 33

Ca2+ plays a key role in many pathological processes, including viral infections. Rotavirus, the major etiological agent of viral gastroenteritis in children and young animals, provides a useful model to study a number of Ca2+ dependent virus-cell interactions. Rotavirus entry, activation of transcription, morphogenesis, cell lysis, particle release, and the distant action of viral proteins are Ca2+ dependent processes. In the extracellular medium, Ca2+ stabilizes the structure of the viral capsid. During entry into the cell the low cytoplasmic Ca2+ concentration induced the solubilization of the outer protein layer of the capsid and transcriptase activation. Viral protein synthesis modifies Ca2+ homeostasis which, in turn, favours viral morphogenesis and induces cell death. The generation of diarrhea is a multifactorial process involving Ca2+ dependent secretory processes of mediators and water and electrolytes, as well as the induction of cell death in the different cell types that compose the intestinal epithelium. The discovery of the non-structural viral protein NSP4 as a viral enterotoxin and the possible participation of the enteric nervous system in the pathogenesis of diarrhea represent significant advances in its understanding. Ca2+ also plays a role in the replication cycles and pathogenesis of other viral diseases such as poliovirus, Coxsackie virus, cytomegalovirus, vaccinia and measles virus and HIV.
Cell Calcium 2000 Sep
PMID:Role of Ca2+in the replication and pathogenesis of rotavirus and other viral infections. 1102 Mar 76

Since extracellular Ca2+ or Mg2+ has been reported to modulate swelling-activated Cl- currents, we examined the expression of the G protein-coupled Ca2+-sensing receptor (CaR) and its involvement in the regulation of volume-sensitive Cl- channels in a human epithelial cell line (Intestine 407). Reverse transcriptase-polymerase chain reaction and immunoblotting analysis showed that Intestine 407 cells express CaR mRNA and protein. The swelling-activated whole-cell Cl- current was voltage-independently augmented by extracellular Ca2+ or Mg2+. In addition, Ca2+ or Mg2+ voltage-dependently accelerated the inactivation kinetics of the Cl- current. Neomycin, spermine and La3+ augmented volume-sensitive Cl- currents. However, these CaR agonists failed to affect depolarization-induced inactivation. Intracellular application of GTPgammaS, but not GDPbeta]S, increased the amplitude of the swelling-induced Cl- current without affecting the basal current. The upregulating effect of Ca2+ on the Cl- current amplitude was abolished by either GTPgammaS or GDPbetaS. In contrast, GTPgammaS and GDPbetaS failed to affect the inactivation kinetics of the Cl- current and the accelerating effect of Ca2+ thereon. The Cl- current amplitude was enlarged by stimulation with forskolin, dibutyryl cAMP and IBMX. During the cAMP stimulation, extracellular Ca2+ failed to increase the Cl- current but did accelerate depolarization-induced inactivation. It is concluded that stimulation of the CaR induces upregulation of volume-sensitive Cl- channels via a G protein-mediated increase in intracellular cAMP in the human epithelial cell. However, the accelerating effect of extracellular divalent cations on the inactivation kinetics of the Cl- current is induced by a mechanism independent of the CaR and cAMP.
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PMID:Ca2+-sensing receptor-mediated regulation of volume-sensitive Cl- channels in human epithelial cells. 1106 Jan 24

The chemokine subclasses differ in their biological activity to stimulate different kinds of effector cells via distinct chemokine receptors. Controversial results about the expression of the CC chemokine receptor CCR3 on the surface of human neutrophils have been described. To find out whether eosinophil contamination might be responsible for these diverse observations, CCR3 expression on highly purified neutrophils and eosinophils was investigated. We enriched neutrophils from a heterogeneous granulocyte population with immunomagnetic beads coated with various anti-CD52 monoclonal antibodies. This procedure was suitable to enrich neutrophils with a purity of up to 99.85%. Reverse transcriptase-PCR revealed that CCR3 mRNA was not expressed by CD52-negative selected neutrophils. In contrast to these cells, CCR3 mRNA could be detected in a heterogeneous granulocyte population and CD16-negative selected eosinophils. In addition, spectrofluorometric measurement of intracellular calcium concentration ([Ca2+]i) demonstrated that CD52-negative selected neutrophils did not show a transient [Ca2+]i increase following stimulation with the CCR3 ligand eotaxin, whereas the heterogeneous granulocyte population as well as eosinophils did respond. Therefore, previous studies demonstrating the expression of CCR3 on human neutrophils have to be re-evaluated because CCR3 mRNA detection on human neutrophils due to contamination by mRNA from eosinophils could not be excluded.
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PMID:The CC chemokine receptor 3 CCR3 is functionally expressed on eosinophils but not on neutrophils. 1106 55

Endothelin (ET) receptor antagonists are nephroprotective in renal damage models of the rat. It is unknown whether ET receptor antagonists are also beneficial in human renal diseases. Major differences exist between the ET systems in rats and humans, therefore this study was designed to characterize the ET receptors expressed on human adult mesangial cells (HMCs). HMCs cultures are a surrogate model for the development of glomerulosclerosis. Binding experiments with [125I]ET-1 in the presence or the absence of the test compounds [endothelin-1, -3 (ET-1, ET-3), sarafotoxin 6c (S6c), or BQ123] revealed an affinity (IC50 values) of 10.5 nm for ET-1 and 87.6 nm for ET-3. The affinities of the ET(B) agonist S6c and the ET(A) antagonist BQ123 were 85.9 nm and > 10 microm, respectively. Thus, the ET receptor on HMCs shows an ET(B)-like pharmacology, but in contrast to the classical ET(B)-receptor the affinities are low. No affinity for BQ123 up to > 10 microm excludes the presence of ET(A)-receptors. Functional studies using microfluorimetry (fura-2 method) showed comparable biphasic calcium signals induced by 10 nm ET-1, ET-3 and S6c. This effect could not be inhibited by BQ123, but by the ET(B) antagonist BQ788. Reverse transcriptase polymerase chain reaction (RT-PCR) studies under different culture conditions showed that both ET(A)- and ET(B)-receptor mRNAs are expressed in HMCs. The amount of ET(A)-receptor mRNA increased 2.7-fold and that of the ET(B)-receptor mRNA 7.1-fold after stimulation with 10% fetal calf serum (FCS). ET-1, ET-3 and S6c stimulated HMCs growth (ET-1 > S6c > ET-3), but the magnitude of the effect of ET-1 is lower than reported in rat mesangial cells (rat MCs). The effect on HMCs growth could be inhibited by BQ788, but not by BQ123. Our data provide evidence for the expression of ET(B)-receptors on HMCs that are functionally active. This finding differs from the ET receptor expression in rat MCs as reported by others.
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PMID:Adult human mesangial cells (HMCs) express endothelin-B-receptors which mediate endothelin-1-induced cell growth. 1107 85

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