EC:3.1.30.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rate of response to thyroid hormone on cardiac growth, heart rate, and the relative changes in messenger RNA (mRNA) coding for alpha- and beta-myosin heavy chain (MHC), slow sarcoplasmic reticulum calcium-adenosine triphosphatase, and thyroid hormone receptors in ventricular tissue of hypothyroid rats was investigated. Hypothyroid rats had significantly smaller hearts, with slower heart rates and expressed no alpha-MHC mRNA as analyzed by an S1 nuclease protection assay when compared to euthyroid animals that expressed 79% alpha-MHC. Twelve hours after treating hypothyroid rats with 20 micrograms of L-T4, detectable levels of alpha-MHC mRNA were present and the shift to alpha-MHC mRNA was complete by 72 h of treatment. Northern blot analysis showed that hypothyroidism resulted in a 60% decrease in the level of sarcoplasmic reticulum calcium-adenosine triphosphatase mRNA which increased after 12 h of T4 administration and was 2.5-fold (P less than 0.05) greater than euthyroid levels after 72 h. In contrast, thyroid hormone receptor mRNA levels measured in poly(A)+ RNA were elevated in hypothyroid rats and decreased to euthyroid levels within 24 h after thyroid hormone treatment. These changes in cardiac gene expression occurred simultaneously with changes in both cardiac size and heart rate. The current studies characterize the coordinated changes and the time course for gene expression that occur in the hypothyroid heart after acute T4 administration.
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PMID:Time course of the in vivo effects of thyroid hormone on cardiac gene expression. 131 35

Cardiac work is a major determinant of heart size and growth. Heterotopic cardiac isografts are hemodynamically unloaded and undergo atrophy. To determine the molecular changes that occur as a result of hemodynamic unloading, we have studied the rate of synthesis of total cardiac proteins and myosin heavy chain (MHC) and the expression of the myosin heavy chain gene as reflected in the messenger RNA levels for alpha- and beta-MHC isoforms. 72 h after transplantation there is a significant decrease in left ventricular size accompanied by a 27% decrease in the rate of total cardiac protein synthesis and a 53% decrease in the rate of myosin heavy chain synthesis. In contrast to isografts 14 d after transplantation which have a decrease in protein synthetic capacity, simultaneous measurements of 18S ribosomal RNA and myosin messenger RNA suggest that after 3 d the decrease in synthesis is due to a change in the efficiency of protein translation. While the working in situ heart expresses primarily alpha-MHC mRNA (97%) hemodynamic unloading leads to a 43% decrease in alpha-MHC mRNA concentration and the de novo expression of the beta-MHC mRNA. Total MHC mRNA (alpha plus beta) concentration analyzed by a quantitative S1 nuclease protection assay was similar in the two groups of hearts. Thus, in association with hemodynamic unloading there are changes in cardiac myosin heavy chain content as a result of both gene transcription and protein translation mechanisms.
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PMID:Hemodynamic regulation of myosin heavy chain gene expression. Studies in the transplanted rat heart. 172 82

Cardiac hypertrophy produced in vivo by pressure overload is characterized by selective up-regulation of the fetal/neonatal beta-cardiac myosin heavy chain (MHC) isogene. However, a molecular signal for beta-MHC isogene induction has not been identified. We examined cardiac MHC isogene expression in a cell culture model for hypertrophy. alpha-MHC and beta-MHC iso-protein and iso-mRNA levels in cultured cardiac myocytes were quantified during hypertrophy stimulated by the alpha 1-adrenergic agonist, norepinephrine (NE). beta-MHC iso-protein content was increased 3.2-fold vs. control (P less than 0.001), whereas alpha-MHC isoprotein content was not changed significantly (1.4-fold vs. control, P = NS). MHC iso-mRNA levels were quantified by nuclease S1 analysis, using a single oligonucleotide probe. NE increased beta-MHC iso-mRNA content by 3.9-fold vs. control (P less than 0.001), but there was no change in alpha-MHC iso-mRNA (1.1-fold vs. control, P = NS). The NE-stimulated increase in beta-MHC iso-mRNA preceded in time the increase in beta-MHC isoprotein accumulation. The EC50 for NE induction of beta-MHC was 40 nM, and pharmacologic experiments indicated alpha 1-adrenergic receptor specificity. alpha-MHC isogene expression was predominant in control myocytes (68% alpha-isoprotein and 60% alpha-iso-mRNA). In contrast, beta-MHC expression was equal to alpha-MHC or predominant after treatment with NE (51% beta-isoprotein and 69% beta-iso-mRNA). Thus, alpha 1-adrenergic receptor stimulation increases the cellular contents of beta-MHC iso-mRNA and beta-MHC isoprotein during hypertrophy of cultured neonatal rat cardiac myocytes, but does not change the levels of alpha-MHC iso-mRNA or isoprotein. The effect on beta-MHC is mediated primarily at the level of mRNA steady-state level (pretranslational). Activation of the alpha 1-adrenergic receptor is the first identified molecular signal for increased beta-MHC isogene expression in a model of cardiac hypertrophy.
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PMID:The cardiac beta-myosin heavy chain isogene is induced selectively in alpha 1-adrenergic receptor-stimulated hypertrophy of cultured rat heart myocytes. 215 96

To examine cardiac myosin gene structure and expression in a non-human primate model for human heart development and disease, we have constructed a cDNA library from baboon atrium and used baboon beta-myosin heavy chain (beta-MHC)* cDNA probes to isolate atrial MHC clones. The nucleotide sequence of one such clone, lambda BMHC alpha 3, contains sequences that encode part of the light meromyosin region (LMM) and the 3' untranslated region of the baboon alpha-MHC. To study cardiac MHC gene transcription, we constructed probes from the baboon alpha-MHC cDNA for S1 nuclease analyses of RNA from atria and ventricles. To examine translational regulation of cardiac MHC gene expression, we used monoclonal antibodies (MAb) against specific alpha- and beta-MHC epitopes for Western blot analyses. In atria and ventricles from adult baboons, we detected predominantly alpha- and beta-MHC gene transcripts, respectively. In ventricles from fetal baboons at two stages of development (140 and 160 days gestation), we also detected predominantly beta-MHC gene transcripts and isoforms. To investigate changes induced by parturition, we obtained ventricles from baboons that were prematurely delivered at 140 days gestation and supported for 10 days in an extrauterine environment. In contrast to adult and fetal patterns, we observed an increase in alpha-MHC transcripts and isoforms in ventricles of premature baboons. Because alpha-MHC gene expression is increased in premature baboons (total age of 150 days) compared to their older 160 day fetal counterparts, the induction of ventricular alpha-MHC synthesis must have resulted from factor(s) associated with parturition or prolonged mechanical ventilation rather than at predetermined stages of gestational development.
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PMID:Alpha-myosin heavy chain cDNA structure and gene expression in adult, fetal, and premature baboon myocardium. 258 20

We have constructed a cDNA library from baboon ventricle and have used a rabbit beta-myosin heavy chain (beta-MHC) cDNA probe to isolate cross-hybridizing clones. The nucleotide sequence of one such clone, lambda BMHC beta 14, contains a portion of the coding region of the light meromyosin (LMM) region and the 3'-untranslated region of the baboon ventricular MHC. This cDNA clone is identified as containing beta-MHC sequences on the basis of similarity with the 3'-untranslated regions of beta-MHC genes from man (96% homologous) and rat (71% homologous), and dissimilarity with the 3'-untranslated region of the rat alpha-MHC gene (25% homologous). Alignment and comparison of the baboon cDNA nucleotide sequence with a human cDNA sequence reveal two amino acid substitutions in the LMM region that cause differences in their hydrophilicity profiles. These differences may alter MHC functions such as filament assembly. We have used baboon beta-MHC cDNA clones to construct probes for S1 nuclease protection studies to detect and to distinguish cardiac MHC gene transcripts in baboon ventricle, atrium, and diaphragm. As in human tissues, beta-MHC gene transcripts are detected in RNA from baboon ventricle and diaphragm. In baboon atrium, we detect beta-MHC gene transcripts as well as transcripts that may represent expression of the alpha-MHC gene. This study represents the first examination of cardiac MHC genes and gene expression in tissues from a large mammal that is closely related to man.
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PMID:The baboon beta-myosin heavy-chain gene: construction and characterization of cDNA clones and gene expression in cardiac tissues. 339 77

We investigated the expression of myosin heavy chain (MHC) isoenzymes in embryonic rat ventricles cultured in the anterior eye chamber of an adult rat. In oculo, these grafts beat and mature in an environment where the hormonal milieu can be manipulated. S1 nuclease protection assays were performed on pooled samples of ventricle grafts and compared to normally growing ventricles. At the time of grafting (embryonic day 12, E-12), 23 +/- 4% of the MHC mRNA was of the alpha isoform. While the proportion of ventricular alpha-MHC mRNA did not increase in utero, embryonic ventricles cultured in oculo showed a rapid increase in the relative amount of alpha-MHC mRNA expression (to 84 +/- 10% by 3 days and 86 +/- 5% by 8 days in oculo). alpha-MHC mRNA expression predominated through 8 weeks of culture in oculo, being 76% at 8 weeks in oculo. Additional experiments were performed to determine whether the rapid conversion to alpha-MHC expression resulted from exposure to adult levels of testosterone or thyroid hormone. Reduction of testosterone exposure to nondetectable levels by host orchiectomy did not affect the rapid conversion to alpha-MHC mRNA expression. Exposure to a hypothyroid milieu (i.e., PTU-treated hosts) decreased but did not prevent the conversion from beta- to alpha-MHC mRNA expression at 8 days in oculo; with 83% of the MHC mRNA being of the alpha isoform in hypothyroid hosts compared to 95% in euthyroid hosts. After 8 weeks of culture in hypothyroid hosts, however, alpha-MHC mRNA expression was undetectable in grafted ventricles. These data suggest that E-12 myocardial grafts respond to the hormonal milieu of an adult rat with rapid conversion from beta- to alpha-MHC mRNA expression and that alpha-MHC expression in early developing heart may show reduced sensitivity to downward modulation by a hypothyroid hormonal milieu.
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PMID:Rapid conversion from beta-MHC to alpha-MHC mRNA expression in embryonic rat ventricle cultured in oculo is not dependent on thyroid hormone or testosterone. 747 87