EC:3.1.27.5 - FACTA Search

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)

During mild postnatal undernutrition, growth hormone receptor (GHR) mRNA abundance decreases in liver but increases in longissimus dorsi muscle. We tested the following hypotheses: 1) GHR gene expression is related to the metabolic and contractile characteristics of different muscles, and 2) the GHR response to nutrition depends on muscle type. Eight pairs of littermate pigs were weaned at 3 wk and given an optimal [60 g/(kg.d)] or low [(20 g/(kg.d)] food intake for the next 3 wk. All pigs grew, but at a slower rate in the low food intake group (P: < 0.001). Functionally distinct muscles were assessed for GHR mRNA (RNase protection analysis), oxidative myofibers (succinate dehydrogenase histochemistry) and type I slow myofibers (myosin immunocytochemistry). There were striking muscle-specific differences in GHR gene expression (P: < 0.001) and in its regulation by nutritional status. Relative expression of GHR mRNA in the optimal food intake group occurred in ascending order as follows: longissimus < diaphragm approximately rhomboideus < cardiac < soleus. There was a positive correlation with the proportion of oxidative myofibers (P: < 0.001) but not with type I myofibers (P: > 0.10). Compared with the high intake pigs, hepatic GHR mRNA was downregulated in the low intake pigs by 59% (P: < 0.01), whereas in the four muscles examined it was upregulated as follows: longissimus, 124% (P: < 0.05); rhomboideus, 19% (P: > 0.4); soleus, 65% (P: < 0. 05); cardiac, 51% (P: < 0.05). Moreover, the proportion of skeletal muscle fibers with high oxidative capacity was also greater in the low intake group (P: < 0.05). We conclude that postnatal GHR gene expression and its regulation by mild undernutrition are related to the metabolic, contractile and specific functional properties of different muscles.
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PMID:Growth hormone receptor gene expression in porcine skeletal and cardiac muscles is selectively regulated by postnatal undernutrition. 1101 77

Prosomes (20S proteasomes) constitute the catalytic core of the 26S proteasomes, but were first observed as factors associated with unstranslated mRNA. Recently, their RNase activity was discovered together with the fact that their proteolytic function is dispensable in adapted human cells. By indirect immunofluorescence using monoclonal antibodies, we demonstrate as a general phenomenon, regular intercalation of specific types of prosomes into the sarcomeric structure of all types of striated muscle. Surprisingly, in cultured smooth muscle cells without sarcomeric organization, some prosomes also form regular striations in extended projections of cytoplasmic regions. The significance of their sarcomeric distribution is not understood as yet, but the pattern we observe is very similar to that shown by others for muscle-specific mRNAs, identified by in situ hybridization, and that of the cognate proteins. A role of prosomes in the cotranslational assembly of the myofibrillar proteins is suggested, since prosomes organize into pseudo-sarcomeric patterns prior to formation de novo of the actin-myosin arrangement.
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PMID:Prosomes form sarcomere-like banding patterns in skeletal, cardiac, and smooth muscle cells. 1133 38

We have isolated MLC1(F) (tMLC1(F)), MLC3(F) (tMLC3(F)) and skeletal actin cDNAs from the teleost Oncorhynchus mykiss. Sequence analysis indicates that tMLC1(F) and tMLC3(F) are not produced from differentially spliced mRNAs as reported in avians and rodents but are encoded by different genes. Results from RNase protection analysis showed that the corresponding transcripts are expressed in fast skeletal muscles. Whole-mount in situ hybridisation revealed distinct expression patterns of the myosin alkali light chains and skeletal actin genes during skeletal muscle development in the embryo.
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PMID:Developmental program expression of myosin alkali light chain and skeletal actin genes in the rainbow trout Oncorhynchus mykiss. 1140 84

In the present study, the mechanisms and importance of the Fc portion of immunoglobulin in experimental giant cell myocarditis were examined. Giant cell myocarditis was induced in rats by immunization of porcine cardiac myosin. Human intact immunoglobulin (1 g. kg(-1). d(-1)) or F(ab')(2) fragments of human immunoglobulin (1 g. kg(-1). d(-1)) were administered intraperitoneally daily on days 1 to 21. Intact immunoglobulin administration significantly ameliorated myocarditis, but F(ab')(2) fragments did not. The ribonuclease protection assay revealed that therapy with intact immunoglobulin, but not F(ab')(2) fragments, suppressed the mRNA expressions of inflammatory and proinflammatory cytokines. Immunohistochemical analysis showed that therapy with intact immunoglobulin, but not F(ab')(2) fragments, suppressed dendritic cell (DC) expression during both the early and the subsequent fulminant phases. Moreover, the early treatment of intact immunoglobulin until the 11th day or 14th day, when the expression of DCs was completely suppressed, ameliorated myocarditis. However, the late treatment of intact immunoglobulin beginning on day 15, when the expression of DCs had already been completed, failed to ameliorate the condition. An in vitro study showed that intact immunoglobulin, but not F(ab')(2) fragments, suppressed the lipopolysaccharide-induced interleukin-1beta production associated with the downregulation of CD32 antigen (Fcgamma receptor II) expression. Thus, intact immunoglobulin therapy markedly suppressed myocarditis as a result of Fc receptor-mediated anti-inflammatory action, and the suppression of the disease was associated with the suppression of DCs, ie, the suppression of the initial antigen-priming process in experimental giant cell myocarditis.
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PMID:Fc receptor-mediated inhibitory effect of immunoglobulin therapy on autoimmune giant cell myocarditis: concomitant suppression of the expression of dendritic cells. 1155 42

The purpose of this study was to evaluate the electrical remodeling of the ventricular myocardium in the experimental autoimmune myocarditis (EAM) model in Lewis rats. EAM was induced by immunization with cardiac myosin. During the active myocarditis phase, the effective refractory period (ERP), the duration of the monophasic action potential (MAPD) was extracted from the left ventricular free wall, and the mRNA levels of Kv1.4, 4.2, 4.3 and L type Ca2+ channel were determined by RNase protection assays. The inducibility of ventricular arrhythmia was higher in EAM rats than in the control rat, and the direct relationship between the coupling intervals of the premature stimulus and the ventricular arrhythmia in EAM rats. The ERP was prolonged in EAM rats compared with the control group. The MAPDs determined as 20% and 90% repolarization time, were both longer in EAM rats than in the controls. The level of expression of Kv4.2 mRNA was reduced in EAM rats in comparison with the controls, whereas those of Kv1.4, 4.3 and the L type Ca2+ channel were unchanged. Ventricular vulnerability was higher in EAM rats than in the control rats, and some of the ventricular arrhythmias observed in the EAM group seemed to be based on triggered activity. The level of expression of Kv4.2 mRNA was significantly reduced, and this change was compatible with prolongation of the action potential duration.
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PMID:Electrical remodeling of the ventricular myocardium in myocarditis: studies of rat experimental autoimmune myocarditis. 1199 74

The effects of various neutral salts on the temperature of the thermally-induced denaturation of the globular protein ribonuclease are described and compared with the effects of these salts on helix-coil transition temperatures in other macromolecules. These agents affect the stability of the native form of macromolecules as diverse as ribonuclease, collagen, DNA, and myosin in very similar ways; salts such as KSCN and CaCl(2) serve as very potent general structural destabilizers or denaturants, while salts such as (NH(4))(2)SO(4) and K(2)HPO(4) strongly stabilize the native conformation. The effectiveness of the neutral salts as ribonuclease destabilizers is compared with that of urea and the guanidinium salts.
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PMID:NEUTRAL SALTS: THE GENERALITY OF THEIR EFFECTS ON THE STABILITY OF MACROMOLECULAR CONFORMATIONS. 1416 81

Chromatography, on diethylaminoethyl cellulose, of leg muscle extracts from older chick embryos yields three myosin-containing fractions, whereas material from muscle extracts of 11-day embryos cannot be eluted under the same conditions. A major fraction having the adenosine triphosphotase activity characteristic of myosin can be eluted when 11-day-old embryo muscle extracts are given prior treatment with ribonuclease.
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PMID:CHROMATOGRAPHY OF RIBONUCLEASE-TREATED MYOSIN EXTRACTS FROM EARLY EMBRYONIC CHICK MUSCLE. 1419 55

The neurodegenerative process in HIV encephalitis (HIVE) is associated with extensive damage to the dendritic and synaptic structure that often leads to cognitive impairment. Several mechanisms might be at play, including release of neurotoxins, oxidative stress and decreased activity of neurotrophic factors. Furthermore, HIV-mediated dysregulation of genes involved in neuronal maintenance might play an important role. For this purpose, cRNA was prepared from the brains of 17 AIDS patients for analysis with the Affymetrix Human U95Av2 GeneChip and analyzed with the GeneSpring Expression Analysis Software. Out of 12,625 genes analyzed, 74 were downregulated and 59 were upregulated compared to controls. Initial alternative analysis of RNA was performed by ribonuclease protection assay (RPA). In cases with HIVE, downregulated genes included neuronal molecules involved in synaptic plasticity and transmission (ion channels, synaptogyrin, synapsin II), cell cycle (p35, p39, CDC-L2, CDC42, PAK1) and signaling molecules (PI3K, Ras-Raf-MEK1), transcription factors and cytoskeletal components (MAP-1B, MAP-2, tubulin, adducin-2). Upregulated genes included those involved in neuroimmune (IgG, MHC, beta2microglobulin) and anti-viral responses (interferon-inducible molecules), transcription (STAT1, OLIG2, Pax-6) and signaling modulation (MEK3, EphB1) of the cytoskeleton (myosin, aduccin-3, radixin, dystrobrevin). Taken together, this study suggests that HIV proteins released from infected macrophages might not only induce a neuroinflammatory response, but also may promote neurodegeneration by interfering with neuronal transcription of genes involved in regulating signaling and cytoskeletal molecules important in maintaining synapto-dendritic functioning and integrity.
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PMID:Patterns of gene dysregulation in the frontal cortex of patients with HIV encephalitis. 1557 94

Using a developed method of determination of the RNase activity of the proteasome in vitro with the application of reverse transcription followed by subsequent polymerase chain reaction it was shown that 26S proteasome from the proteasomal fraction II effectively cleaves RNA, encoding actin, myosin and all isoforms of NO synthase. The intensity of RNA degradation by proteasome and specific RNases is similar. It was also shown that clasto-lactacystin beta-lactone, a specific proteasome inhibitor significantly depresses RNase activity of the proteasome. Thus, proteasome is capable to degrade certain eukariotic RNA in vitro and the proposed method can be used in order to discover specific substances such as inhibitors of RNase activity of the proteasome.
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PMID:[Proteasomal degradation of ribonucleic acids of different NO-synthase isoforms]. 1655 92

Using a culture of cardiomyocytes it has been shown, that a well-known inhibitor of autophagy, N-3-methyladenine causes a 1.4 fold increase (p = 0.023) of the chymotrypsin-like activity, a 1.5 fold increase (p = 0.09) of the peptidyl-glutamyl peptide-hydrolyzing activity and 1.5 fold decrease (p = 0.07) of the trypsin-like activity of the proteasome. N-3-methyladenine in a dose-dependent manner inhibits chymotrypsin-like and peptidyl-glutamyl peptide-hydrolyzing activities of the purified 20S proteasome, but activates it trypsin-like activity. Chymotrypsin-like and peptidyl-glutamyl peptide-hydrolyzing activities of the 26S proteasome from proteasome fraction II did change in the same way, as in the case of 20S proteasome, but trypsin-like activity decreased. Using the above method of determining ribonuclease activity, we have shown, that N-3-methyladenine and clasto-lactacystin b-lactone inhibit the RNase activity of the proteasome. Specific proteasome inhibitor exhibits more powerful action, almost completely preventing RNA of actin and myosin from degradation. These data show a multitarget action of N-3-methyladenine, resulting in changes of peptidase and ribonuclease activity of the proteasome.
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PMID:[Effect of N-3-methyladenine on peptidase and ribonuclease activity of proteasome]. 1684 70

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