Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Growth and differentiation of the fetal lung are dependent on chloride and fluid secretion, yet the specific molecular identities of fetal chloride channels have not been fully determined. In this study, we demonstrate mRNA expression of the volume-activated chloride channel, CIC-2, in fetal rat lung using reverse-transcriptase polymerase chain reaction (RT-PCR) and ribonuclease (RNase) protection assay. By RNase protection assay, CIC-2 mRNA expression is most abundant in fetal lung and diminishes after birth until it is almost undetectable in adult rat lung. To confirm this result at the protein level, a C-terminal fragment of CIC-2 cDNA derived from 19-day fetal rat lung was cloned into an expression plasmid. The truncated 33-kD CIC-2 protein was expressed in Escherichia coli and purified by column chromatography. Polyclonal antibodies to this antigen were raised in chickens, and the antisera detected a 94-kD protein in fetal rat lung homogenates by Western blotting. Protein expression of CIC-2 was most abundant in mid and late gestation and decreased significantly shortly after birth, as would be predicted by the RNase protection data. CIC-2 protein was localized along the apical surface of fetal airway epithelium by immunocytochemistry. The abundant fetal expression of CIC-2 RNA and protein supports the hypothesis that CIC-2 is important to fetal lung development, and its apical location suggests that it may be involved in fluid secretion during normal lung morphogenesis.
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PMID:CIC-2: a developmentally dependent chloride channel expressed in the fetal lung and downregulated after birth. 776 24

Multifunctional Ca2+/calmodulin-dependent protein kinase (CaM kinase) is a mediator of calcium signals in diverse signaling pathways. In human lymphocytes and epithelial tissues, CaM kinase activates a chloride channel via a Ca(2+)-dependent pathway which is preserved in cystic fibrosis. To characterize the CaM kinase present in these tissues we have cloned an isoform of this kinase from human T lymphocytes. We show the cDNA structure of two variants of this human CaM kinase, gamma B and gamma C, which are predicted to translate to 518 and 495 amino acids, respectively. Amino acid differences between these isoforms and the rat brain gamma isoform (which we refer to as gamma A) are localized to the variable domain. We used RNase protection of this variable region to reveal the level of expression of gamma B and gamma C CaM kinase mRNAs in nine human tissues and cell lines. When transfected into Jurkat T cells, the gamma B cDNA encoded a functional kinase which cosedimented on sucrose gradients with endogenous T cell CaM kinase activity and formed a large multimeric enzyme. The recombinant gamma B isoform displayed two phases of autophosphorylation characteristic of CaM kinases, including the phase which converts it to a partially Ca(2+)-independent species. Site-directed mutagenesis of the predicted autoinhibitory domain yielded a mutant which was approximately 37% active in the absence of Ca2+/calmodulin, confirming the region as critical for autoregulation, and suggesting this mutant as a tool for studying the role of CaM kinase in nonneuronal tissues.
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PMID:Cloning and analysis of two new isoforms of multifunctional Ca2+/calmodulin-dependent protein kinase. Expression in multiple human tissues. 844 10

Chloride channels supply critical functions in epithelial cells throughout the body. Although function of the volume- and voltage-gated C1C-2 is uncertain, its wide tissue distribution of mRNA suggests C1C-2 has important housekeeping functions. This study's objective was to identify the extent of not only C1C-2 mRNA expression but also protein expression as a measure of the capacity for C1C-2 chloride secretion in epithelial tissues. Using quantitative ribonuclease protection assay, we found that C1C-2 mRNA transcripts were abundant in fetal and postnatal brain, fetal kidney, liver, intestine, and lung. In contrast to brain, C1C-2 mRNA transcripts were downregulated during late gestation in lung, kidney, and intestine. The lung expressed the least C1C-2 mRNA. Immunoblotting demonstrated similar tissue- and gestation-dependent variations in C1C-2 protein expression. To determine if there is a correlation between the sites of C1C-2 protein expression and cystic fibrosis transmembrane conductance regulator (CFTR), another epithelial chloride channel, a polyclonal COOH-terminal C1C-2 antibody and an anti-R domain CFTR anti-body were used. C1C-2 and CFTR were expressed in different sites in lung and kidney.
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PMID:Gestational and tissue-specific regulation of C1C-2 chloride channel expression. 894 27

In rats treated with high-dose corticosteroids, skeletal muscle that is denervated in vivo (steroid-denervated) develops electrical inexcitability similar to that seen in patients with acute quadriplegic myopathy. To determine whether changes in muscle gene transcription might underlie inexcitability of steroid-denervated muscle we performed RNase protection assays to quantitate adult (SkM1) and embryonic (SkM2) sodium channel isoforms and chloride channel (CLC-1) mRNA levels in control, denervated, steroid-innervated, and steroid-denervated skeletal muscle. While SkM1 mRNA levels were relatively unaffected by denervation or steroid treatment, SkM2 mRNA levels were increased by both. These effects were synergistic and high levels of SkM2 mRNA were expressed in denervated muscle exposed to corticosteroids. Skeletal muscle CLC-1 mRNA levels were decreased by denervation. To better understand the marked upregulation of SkM2 in steroid-denervated muscle we examined changes in myogenin and glucocorticoid receptor mRNA levels. However, changes in these mRNA levels cannot account for the upregulation of SkM2 in steroid-denervated muscle.
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PMID:Altered gene expression in steroid-treated denervated muscle. 1060 Apr 7

Chloride transport is critical to many functions of the lung. Molecular defects in the best-known chloride channel, cystic fibrosis transmembrane conductance regulator (CFTR), lead to impaired function of airway defensins, hydration of airway surface fluid, and mucociliary clearance leading to chronic lung disease, and premature death, but do not cause defects in lung development. We examined the expression of one member of the ClC family of volume- and voltage-regulated channels using the ribonuclease protection assay and Western blot analysis in rats. ClC-5 mRNA and protein are most strongly expressed in the fetal lung, and expression is maintained although downregulated postnatally. In addition, using immunocytochemistry, we find that ClC-5 is predominantly expressed along the luminal surface of the airway epithelium, suggesting that ClC-5 may participate in lung chloride secretion. Identifying candidate genes for critical ion transport functions is essential for understanding normal lung morphogenesis and the pathophysiology of several lung diseases. In addition, the manipulation of non-CFTR chloride channels may provide a viable approach for treating cystic fibrosis lung disease.
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PMID:ClC-5: ontogeny of an alternative chloride channel in respiratory epithelia. 1183 44

In the past few years the pivotal role of kidney Cl(-)channels (ClC-K) channels in maintaining salt and water homeostasis in the kidney has been established. The aim of the present study was to investigate the influence of the loop diuretic furosemide on the gene expression of the kidney chloride channel ClC-K1 and its recently described functional subunit barttin. Male Sprague Dawley rats received the loop diuretic furosemide (12 mg/kg/day) for 6 days. Rats had free access to 0.9% NaCl, 0.1%KCl solution to prevent volume depletion. Localisation and regulation of ClC-K1 and barttin mRNA was analysed by RNase protection and in situ hybridisation. Nephron-specific regulation was investigated by microdissection and real-time PCR quantification. In furosemide-treated rats ClC-K1 mRNA decreased to half in the inner medulla. In the renal cortex and outer medulla ClC-K1 mRNA levels were weak and did not change. Under furosemide treatment barttin mRNA was regulated in parallel with ClC-K1 mRNA. A significant mRNA decrease occurred after furosemide treatment in inner medulla (0.50 fold), whereas cortical and outer medulla levels remained unaffected. (35)S in situ hybridisation confirmed the regulation and distribution seen in the RNase protection assay experiments. Microdissection of the inner medullary collecting duct and thin limb of Henle's loop followed by real-time PCR revealed that CLC-K1 and barttin mRNA regulation in inner medulla was limited to the thin limb; mRNA levels in collecting ducts were not affected by furosemide treatment. Our findings imply that during furosemide treatment selective down-regulation of ClC-K1 and barttin mRNAs in thin limb plays a role in maintaining salt and water homeostasis.
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PMID:Parallel down-regulation of chloride channel CLC-K1 and barttin mRNA in the thin ascending limb of the rat nephron by furosemide. 1275 57

The identification and analysis of several cationic ion channels and their associated genes have greatly improved our understanding of the molecular and cellular mechanisms of cardiac arrhythmia. Our objective in this study was to examine the involvement of anionic ion channels in cardiac arrhythmia. We used a transgenic mouse model to overexpress the human cystic fibrosis transmembrane conductance regulator (CFTR) gene, which encodes a cAMP-regulated chloride channel. We used RNase protection and in situ hybridization assays to determine the level of CFTR expression, and radiotelemetry and in vivo electrophysiological study in combination with pharmacological intervention to analyse the cardiac function. Cardiac CFTR overexpression leads to stress-related sudden death in this model. In vivo intracardiac electrophysiological studies performed in anaesthetized mice showed no significant differences in baseline conduction parameters including atrial-His bundle (AH) or His bundle-ventricular (HV) conduction intervals, atrioventricular (AV) Wenckebach or 2:1 AV block cycle length and AV nodal functional refractory period. However, following isoproterenol administration, there was marked slowing of conduction parameters, including high-grade AV block in transgenic mice, with non-sustained ventricular tachycardia easily inducible using programmed stimulation or burst pacing. Our sudden death mouse model can be a valuable tool for investigation of the role of chloride channels in arrhythmogenesis and, potentially, for future evaluation of novel anti-arrhythmic therapeutic strategies and pharmacological agents.
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PMID:Arrhythmia and sudden death associated with elevated cardiac chloride channel activity. 2115 78