EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatostatin (SMS) is administered to patients with short bowel syndrome and enterocutaneous fistulae. Previous studies have shown detrimental effects of SMS on intestinal adaptation after bowel resection. We examined whether administration of epidermal growth factor (EGF) could reverse the deleterious effects of SMS seen after enterectomy. Sixty-four Sprague-Dawley rats underwent an 80% small bowel resection or transection as control. Rats received either SMS at 50 ng x kg(-1) x h(-1), EGF/Urogastrone at 1.5 microg x kg(1-) x h(-1), or both via subcutaneous miniosmotic pumps. Samples were obtained at 1 day and 1 week after surgery for histologic examination, analysis of apical Na+/glucose cotransporter protein and mRNA expression, and analysis of basolateral Na+/K+ ATPase protein and mRNA expression. Protein expression was analyzed by Western blotting whereas mRNA expression was compared by ribonuclease protection assay. Histologically, villus to crypt length after intestinal resection showed increased adaptation in EGF/SMS vs SMS treated animals in both jejunum and ileum. Analysis of mRNA and protein of epithelial transporters show early increases when EGF is administered with SMS vs SMS only. We conclude that combination therapy using EGF and SMS may be beneficial to intestinal adaptation after small bowel resection. Both histologic and molecular data suggest an enhanced absorptive potential and adaptation of the remaining intestine when EGF is administered.
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PMID:Epidermal growth factor improves intestinal adaptation during somatostatin administration in vivo. 866 Nov 91

Recent pharmacological and functional studies have suggested the presence of more than one alpha-1 adrenergic receptor subtype in human corpus cavernosum (HCC). In this study, we sought to identify the alpha-1 adrenergic receptor (alpha 1-AR) subtypes expressed in HCC whole tissue and in trabecular smooth muscle subcultured from this tissue. We have utilized RNase protection assays and in situ hybridization (ISH) techniques to identify and localize these receptor subtypes. RNase protection assays of mRNA isolated from whole tissue demonstrated the presence of mRNA transcripts for three alpha 1-AR receptor subtypes (alpha 1d, alpha 1b, and alpha 1a). alpha 1d-AR and alpha 1a-AR appear to be more abundant than alpha 1b-AR. The identification and localization of mRNA for alpha 1-AR subtypes in whole tissue was demonstrated by RNA protection assays and ISH analysis. Immunocytochemical analysis of alpha 1-AR by an antipeptide antibody developed against a specific amino acid sequence derived from alpha 1d-AR subtype demonstrated specific staining of the smooth muscle cells, suggesting the expression of alpha 1d-AR subtype. In cultured HCC smooth muscle cells (HCC SMC), phenylephrine,alpha 1-AR agonist stimulated Na+/K+ ATPase activity, suggesting the presence of functional alpha 1-AR. RNase protection assay of mRNA isolated from HCC SMC grown in culture further demonstrated the presence of mRNA transcripts for alpha 1d-AR and alpha 1a-AR subtypes. ISH analysis and confocal microscopy also indicate that the SMC express the alpha 1d-AR and alpha 1a-AR subtypes. The data presented suggests that HCC and SMC derived from this tissue express at least three alpha 1-AR subtypes. Identification of these receptor subtypes should allow characterization of the functional role of these receptor subtypes in regulation of trabecular smooth muscle tone and penile detumescence.
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PMID:Identification of alpha 1-adrenergic receptor subtypes in human corpus cavernosum tissue and in cultured trabecular smooth muscle cells. 872 94

Channel inducing factor (CHIF) is a novel cDNA recently cloned from a rat distal colon cDNA library of dexamethasone-treated animals. While its expression in Xenopus oocytes evokes a potassium channel activity similar to that induced by Isk (minK), its cellular role is not clear. CHIF exhibits significant homologies with proteins that are putatively regulatory (phospholemman, gamma-subunit of Na(+)-K(+)-ATPase, Mat-8) while it differs from the small-conductance potassium channel Isk. We have studied the tissue specificity of CHIF expression in rat by in situ hybridization. CHIF is selectively present in the distal parts of the nephron (medullary and papillary collecting ducts and end portions of cortical collecting tubule) and in the epithelial cells of the distal colon. No expression of CHIF was found in renal proximal tubule, loop of Henle and distal tubule, proximal colon, small intestine, lung, choroid plexus, salivary glands, or brain. To gain some insight into CHIF function, we have investigated, using in situ hybridization and ribonuclease protection assay, whether CHIF mRNA expression could be altered in some situations. In the distal colon, corticosteroid hormones, sodium restriction, low-potassium diet, and metabolic acidosis significantly increased CHIF mRNA expression. In the kidney, metabolic acidosis was the only condition that showed an increase in CHIF mRNA expression. Some of these treatments also altered the expression of the colonic H(+)-K(+)-ATPase mRNA. In summary, CHIF mRNA is selectively expressed in the medullary collecting duct of the kidney and in the epithelium of the distal colon; its expression varies differently in these two target tissues after alterations in corticosteroid status, potassium depletion, and metabolic acidosis. The precise cell-specific functions of CHIF remain to be established.
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PMID:Cellular localization and regulation of CHIF in kidney and colon. 884 4

SPAI, originally isolated as a sodium/potassium-ATPase inhibitor and now considered to be a proteinase inhibitor of unknown specificity based on its similarity to elafin (an elastase inhibitor), is a new type of plasma protein that has a transglutaminase substrate domain, which serves as an anchoring sequence to be covalently cross-linked at target sites. To determine the source of SPAI, we carried out in situ hybridization and immunohistochemistry using an antisense cRNA probe and an antiserum against recombinant SPAI, respectively. Since previous RNase protection analysis had indicated that SPAI mRNA is almost exclusively expressed in the porcine small intestine, we used its frozen sections for the staining. The lower crypt was decorated with both the cRNA probe and antiserum, indicating that SPAI is synthesized and secreted by the enteroendocrine cells located near the crypt base. The native form of SPAI was also characterized by Western blotting. This result together with the previous biochemical and molecular biological characterizations may set the stage for identifying the physiological roles of the conceptually very interesting protein SPAI.
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PMID:Cryptic origin of SPAI, a plasma protein with a transglutaminase substrate domain and the WAP motif, revealed by in situ hybridization and immunohistochemistry. 893 75

Distal colon and renal cortical collecting ducts are major effectors of aldosterone-dependent Na homeostasis. Na is absorbed by entry through an apical amiloride-sensitive Na channel and extruded by Na-K-ATPase at the basolateral membrane. Using a ribonuclease protection assay, we studied, in vivo, aldosterone regulation of alpha-, beta-, gamma-subunits of the rat epithelial Na channel (rENaC) and alpha 1- and beta 1-subunits of Na-K-ATPase. In the kidney, Na-K-ATPase mRNAs were also assayed over discrete tubular segments by in situ hybridization. In rat colon, all three rENaC mRNAs were decreased by adrenalectomy, with a major effect on beta- and gamma-subunits, and were restored with 7 days, but not 2 days, of aldosterone treatment; in the kidney, however, only alpha-transcripts varied. Na-K-ATPase alpha 1- and beta 1-subunit mRNAs in both organs were not (in the case of the beta 1-subunit) or were mildly (in the case of the alpha 1-subunit) affected after adrenalectomy. Our conclusions are as follows: 1) Transcripts of rENaC and Na-K-ATPase subunits are not coordinately regulated by aldosterone in vivo; i.e., modulation involves mainly the Na channel, not Na-K-ATPase; the effect is not of comparable magnitude on each subunit mRNA and differs between tissues. 2) The delay of the aldosterone effect on transcripts is much longer than that required to restore normal Na transport in adrenalectomized rats, indicating that rENaC and Na-K-ATPase subunit transcript levels may depend on unidentified early aldosterone-induced proteins.
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PMID:Noncoordinate regulation of epithelial Na channel and Na pump subunit mRNAs in kidney and colon by aldosterone. 917 38

Congestive heart failure leads to skeletal muscle abnormalities, one of which is a prolongation of sarcoplasmic reticulum Ca2+ flux. The purpose of this study was to determine whether skeletal muscle of spontaneous hypertensive and heart failure rats have alterations in the expression of the sarcoplasmic (or endoplasmic) reticulum Ca(2+)-ATPase (SERCA) gene. Northern analysis revealed that SERCA1, the predominant skeletal muscle isoform, was decreased by 45%, 43%, and 58% in the tibialis anterior, plantaris, and diaphragm muscles, respectively. Ribonuclease protection assay showed that the decrease was due to the adult isoform, SERCA1a, with minor changes in the alternatively spliced neonatal isoform, SERCA1b. There was no change in SERCA1 mRNA levels in gastrocnemius muscles. No change was found in SERCA2a (cardiac/slow skeletal isoform) mRNA or protein levels or in SERCA2b (smooth muscle isoform), dihydropyridine receptor, or alpha-actin mRNA levels in diaphragm muscle. Northern blot and ribonuclease protection assays showed that SERCA2a decreased 61% in the heart while the alternatively spliced isoform, SERCA2b, decreased 27%. Western analysis of the tibialis anterior, diaphragm, and gastrocnemius muscles showed a decrease in SERCA1 protein levels by 46%, 64%, and 42%, respectively, whereas sarcoplasmic reticulum Ca(2+)-ATPase activity, a functional correlate of SERCA expression, was decreased by 38%, 38%, and 40% in the same muscles, SERCA2 protein expression decreased by 36% in the failing heart. Decreases in both mRNA and protein suggest pretranslational control of SERCA1 expression, whereas the lack of decreased SERCA1 mRNA in gastrocnemius muscle suggests translational regulation. The decreased SERCA1 protein expression in all muscles studied probably contributes to contractile abnormalities related to excitation-contraction coupling function in heart failure.
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PMID:Skeletal muscle sarcoplasmic reticulum Ca(2+)-ATPase gene expression in congestive heart failure. 935 44

Following myocardial Infarction (MI) the heart undergoes a process of remodeling characterized by considerable hypertrophy of the non-infarcted myocardium. We have recently characterized the molecular basis of key electrophysiologic alterations that may provide insight into the arrhythmogenecity of post-MI remodeled hypertrophied myocardium. To further characterize other key alterations in the pattern of cardiac gene expression in a time-dependent manner, we have measured mRNA and immunoreactive protein levels of selective cardiac genes in the remodeled hypertrophied left-ventricular (LV) myocardium of rats, 3 and 21 days after left-coronary ligation and compared the results with sham-operated rats. RNase protection assay was performed to assess the expression of c-fos, atrial natriuretic factor (ANF), brain natriuretic factor (BNF), alpha2/3 isoform of Na-K ATPase, cardiac alpha/beta isoform of myosin heavy chain (MHC). Compared to the sham group, the expression of c-fos was increased 10-fold (P<0.02) in the MI group on day 3, but unlike other overload hypertrophy models, the expression remained elevated by three-fold on day 21. Similar to other overload models, the ANF and BNF expression increased significantly. No alterations were observed in the expression of cardiac alpha-actin. There was reexpression of the fetal isogene form of MHC and Na-K ATPase after MI. The beta-MHC mRNA levels, the fetal isoform of MHC, returned to basal levels after 21 days. After an initial five-fold decrease the adult isoform of alphaNa-K ATPase, alpha2 Na-K ATPase mRNA, returned to control levels and similar changes were seen in the corresponding protein levels. These findings indicate that during LV remodeling and hypertrophy following MI, there is an upregulation of early response genes and fetal isogene expression. The pattern of activation, however, is distinct from that observed in other overload models, indicating the possible involvement of alternate signal transduction pathways.
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PMID:Alterations in cardiac gene expression during ventricular remodeling following experimental myocardial infarction. 951 38

Cotton (Gossypium hirsutum L.) fibers are single-celled trichomes that synchronously undergo a phase of rapid cell expansion, then a phase including secondary cell wall deposition, and finally maturation. To determine if there is coordinated regulation of gene expression during fiber expansion, we analyzed the expression of components involved in turgor regulation and a cytoskeletal protein by measuring levels of mRNA and protein accumulation and enzyme activity. Fragments of the genes for the plasma membrane proton-translocating ATPase, vacuole-ATPase, proton-translocating pyrophosphatase (PPase), phosphoenolpyruvate carboxylase, major intrinsic protein, and alpha-tubulin were amplified by polymerase chain reaction and used as probes in ribonuclease protection assays of RNA from a fiber developmental series, revealing two discrete patterns of mRNA accumulation. Transcripts of all but the PPase accumulated to highest levels during the period of peak expansion (+12-15 d postanthesis [dpa]), then declined with the onset of secondary cell wall synthesis. The PPase was constitutively expressed through fiber development. Activity of the two proton-translocating-ATPases peaked at +15 dpa, whereas PPase activity peaked at +20 dpa, suggesting that all are involved in the process of cell expansion but with varying roles. Patterns of protein accumulation and enzyme activity for some of the proteins examined suggest posttranslational regulation through fiber development.
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PMID:Genes involved in osmoregulation during turgor-driven cell expansion of developing cotton fibers are differentially regulated. 953 73

The sarco(endo)plasmic reticulum Ca2+ ATPase (SERCA) type 1 and 2 genes are alternatively spliced at their 3' end. We hypothesized that similar mechanism may occur for SERCA 3. Two spliced variants were identified by RNase protection analysis. We then isolated and sequenced the 3' end portion of the mouse SERCA 3 gene, and confirmed the presence of an alternative mRNA transcript by sequencing a cDNA fragment obtained by RT-PCR. Tissue distribution of the alternatively spliced mRNAs was studied by RT-PCR: SERCA 3b was the only isoform expressed in endothelial cells from aorta and heart and also was the major isoform in lung and kidney whereas SERCA 3a and 3b were coexpressed in trachea, intestine, thymus, spleen, and fetal liver.
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PMID:Characterization of the 3' end of the mouse SERCA 3 gene and tissue distribution of mRNA spliced variants. 963 55

Previous work has implicated poly(A) polymerase I (PAP I), encoded by the pcnB gene, in the decay of a number of RNAs from Escherichia coli. We show here that PAP I does not promote the initiation of decay of the rpsT mRNA encoding ribosomal protein S20 in vivo; however, it does facilitate the degradation of highly folded degradative intermediates by polynucleotide phosphorylase. As expected, purified degradosomes, a multi-protein complex containing, among others, RNase E, PNPase, and RhlB, generate an authentic 147-residue RNase E cleavage product from the rpsT mRNA in vitro. However, degradosomes are unable to degrade the 147-residue fragment in the presence of ATP even when it is oligoadenylated. Rather, both continuous cycles of polyadenylation and PNPase activity are necessary and sufficient for the complete decay of the 147-residue fragment in a process which can be antagonized by the action of RNase II. Moreover, both ATP and a non-hydrolyzable analog, ATPgammaS, support the PAP I and PNPase-dependent degradation of the 147-residue intermediate implying that ATPase activity, such as that which may reside in RhlB, a putative RNA helicase, is not necessarily required. Alternatively, the rpsT mRNA can be degraded in vitro by a second 3'-decay pathway which is dependent on PAP I, PNPase and ATP alone. Our results demonstrate that a hierarchy of RNA secondary structures controls access to exonucleolytic attack on 3' termini. Moreover, decay of a model mRNA can be reconstituted in vitro by a small number of purified components in a process which is more dynamic and ATP-dependent than previously imagined.
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PMID:Reconstitution of the degradation of the mRNA for ribosomal protein S20 with purified enzymes. 964 84

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