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)

The mouse has been used extensively for generating transgenic animal models to study cardiovascular disease. Recently, a number of transgenic mouse models have been created to investigate the importance of sarcoplasmic reticulum (SR) Ca(2+)transport proteins in cardiac pathophysiology. However, the expression and regulation of cardiac SR Ca(2+)ATPase and other Ca(2+)transport proteins have not been studied in detail in the mouse. In this study, we used multiplex RNase mapping analysis to determine SERCA2, phospholamban (PLB), and Na(+)/Ca(2+)-exchanger (NCX-1) gene expression throughout mouse heart development and in hypo/hyperthyroid animals. Our results demonstrate that the expression of SERCA2 and PLB mRNA increase eight-fold from fetal to adult stages, indicating that SR function increases with heart development. In contrast, the expression of the Na(+)/Ca(2+)-exchanger gene is two-fold higher in fetal heart compared to adult. Our study also makes the important observation that in hypothyroidic hearts the NCX-1 mRNA and protein levels were upregulated, whereas the SERCA2 mRNA/protein levels were downregulated. In hyperthyroidic hearts, however, an opposite response was identified. These findings are important and point out that the expression of NCX-1 is regulated antithetically to that of SERCA2 during heart development and in response to alterations in thyroid hormone levels.
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PMID:The expression of SR calcium transport ATPase and the Na(+)/Ca(2+)Exchanger are antithetically regulated during mouse cardiac development and in Hypo/hyperthyroidism. 1073 44

Thyroid hormone (TH) plays an important role in the postnatal development of the rodent cerebellum, particularly within the first 2 weeks of postnatal life. This action is exerted through the regulation of specific genes during development and is mediated by coactivator and corepressor proteins that determine transcriptional repression or activation, respectively. Thus, we hypothesized that the effect of TH on rodent cerebellar development could be influenced by the relative amounts of coactivator and corepressor proteins in vivo. These ratios might be modulated in an age-specific manner and/or by hormones to generate the "critical period" of TH action. To examine this hypothesis, we cloned rat complementary DNA fragments corresponding to coactivators (SRC1, TIF2 and TRAM1) and corepressors (N-CoR and SMRT), and studied the ontogenic changes in their corresponding messenger RNAs in rat cerebellum of normal and hypothyroid rats during postnatal development, using a RNase protection assay. We found an increased expression of SRC1 and TIF2, as well as of N-CoR, during rat cerebellar development but no change in the expression of SMRT and TRAM1 genes. However, thyroid hormone status did not affect the expression of coactivator and corepressor genes in the cerebellum. These results indicate that coactivator and corepressor messenger RNAs exhibit differential expression through cerebellar development but are not regulated by TH during this period.
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PMID:Coactivator and corepressor gene expression in rat cerebellum during postnatal development and the effect of altered thyroid status. 1080 78

By use of RNase protection assays, hepatic growth hormone receptor (GHR) and insulin-like growth factor I (IGF-I) mRNA abundances were measured in sheep fetuses after experimental manipulation of fetal plasma thyroid hormone concentrations by fetal thyroidectomy (TX) and exogenous infusion of triiodothyronine (T(3)) and cortisol. TX abolished the normal prepartum rise in hepatic GHR abundance but had little effect on hepatic GHR gene expression at 127-130 days (term 145 +/- 2 days). By contrast, it upregulated basal IGF-I expression in immature fetal liver by increasing both Class 1 and Class 2 transcript abundance but had no further effects on IGF-I gene mRNA levels at 142-145 days. Raising plasma T(3) to prepartum values by exogenous infusion of either T(3) or cortisol into immature intact fetuses prematurely raised hepatic GHR and IGF-I mRNA abundances to values similar to those seen in intact fetuses at 142-145 days. In TX fetuses, cortisol infusion increased hepatic GHR mRNA but not total IGF-I mRNA abundance at 127-130 days. These findings show that thyroid hormones have an important role in the regulation of hepatic GHR and IGF-I gene expression in fetal sheep during late gestation and suggest that T(3) mediates the maturational effects of cortisol on the hepatic somatotropic axis close to term.
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PMID:Control of ovine hepatic growth hormone receptor and insulin-like growth factor I by thyroid hormones in utero. 1082 21

Hypothyroidism has devastating consequences on brain development. While the mechanisms that mediate these effects are not known, several lines of evidence suggest that a reduction in insulin-like growth factor-I (IGF-I) expression and/or action has a role. To assess whether reduced IGF-I expression and/or actions mediates the brain pathology of congenital hypothyroidism, we induced hypothyroidism by treating pregnant mice and lactating dams with 0. 1% propylthiouracil (PTU) in drinking water. Control and PTU-treated pups were sacrificed on postnatal day (P) 7, 10 and 14, and IGF-I mRNA expression was assessed in the cerebral cortex and cerebellum by ribonuclease protection assay. To control for mRNA loading, the signal of IGF-I protected bands was normalized to those for cyclophillin. IGF-I mRNA expression in hypothyroid animals was decreased significantly in cortex at P10 and P14 (42 and 60%, respectively). In the cerebellum, IGF-I mRNA expression was down-regulated at all ages studied, but the decrease was only statistically significant at P7 (31% decreased). We conclude that hypothyroidism alters IGF-I expression in the developing brain. Furthermore, we speculate that IGF-I plays a role in mediating some thyroid hormone actions during brain development.
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PMID:Effects of hypothyroidism on insulin-like growth factor-I expression during brain development in mice. 1102 43

The effects of all-trans-retinoic acid (RA), 9-cis-retinoic acid (9cRA), and thyroid hormone (T3) on GH-releasing hormone receptor (GHRH-R) messenger RNA (mRNA) expression were studied using ribonuclease protection assay in the fetal rat pituitary gland and in MtT/S cells, a clonal GH cell line derived from an estrogen-induced somatotropic tumor in the rat. Although RA (1 microM), 9cRA (1 microM), or T3 (1 nM) alone showed little effect on GHRH-R mRNA expression in the MtT/S cells, each of these substances was found to act synergistically with dexamethasone (DEX; 500 nM) to increase GHRH-R mRNA expression. The effects of RAs and T3 were dose dependent, with maximum effects observed at 1 microM and 1 nM, respectively. The maximum effect of RAs or T3 was not further augmented by the addition of T3 or RAs, respectively. No apparent differences were observed in this study between the actions of RA and 9cRA. The Northern analyses showed that MtT/S cells express retinoic acid receptor alpha2 mRNA and thyroid hormone receptor beta2 mRNA, and DEX did not affect the levels of these mRNAs. This suggests that the role of DEX in enabling RAs or T3 to up-regulate GHRH-R mRNA levels is not an induction of the expression of each specific receptor for RAs and T3. The similar enhancement of DEX induction of GHRH-R mRNA by RAs or T3 was also observed in the fetal rat pituitary gland in culture, suggesting that RA and/or T3 is involved in the mechanisms responsible for the developmentally regulated expression of GHRH-R mRNA.
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PMID:Retinoic acids and thyroid hormone act synergistically with dexamethasone to increase growth hormone-releasing hormone receptor messenger ribonucleic acid expression. 1110 47

Glial cell line-derived neurotrophic factor (GDNF) and neurturin (NTN) bind to GFR alpha-1 and GFR alpha-2 receptors, respectively, and their neurotrophic activity is mediated by the tyrosine kinase receptor, Ret. All these molecules were found to be expressed in primary cultures of rat glial cells, which were largely composed of astrocytes and maintained in serum-free medium. Although GDNF, NTN and Ret mRNA levels were at the limit of detection, RNase protection assays revealed relatively high amounts of GFR alpha-1 and GFR alpha transcripts. To characterize signals controlling their expression, glial cells were exposed to serum or treated with hormones acting through nuclear receptors and by activators of the cAMP or protein kinase C (PKC)-dependent pathways. Retinoic acid or 1,25-dihydroxyvitamin D3 appeared ineffective. In contrast, the 5-fold increase in GFR alpha-2 mRNA after 24 hr of treatment with 10(-10) M of tri-iodothyronine, suggests a physiological role of thyroid hormone in the regulation of this receptor in vivo. The serum induced a 7-fold increase in GFR alpha-1 mRNA levels. These changes may be mediated by the cAMP or PKC pathways because both forskolin and TPA up-regulated the GFR alpha-1 gene. Interestingly, only TPA led to a coordinated increase in the levels of GDNF, GFR alpha-1 and GFR alpha-2 mRNAs. On the other hand, NTN transcripts remained constant, irrespective of the culture conditions. Taken together, these results indicate that GDNF family ligands and their receptors are regulated in glial cells by common or independent transductional pathways, which could modulate their specific expression during brain development or in the case of trauma.
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PMID:Differential regulation of GDNF, neurturin, and their receptors in primary cultures of rat glial cells. 1131 68

Nuclear thyroid hormone (TH) receptors (TR) play a critical role in mediating the diverse actions of TH in development, differentiation, and metabolism of most tissues, but the role of TR isoforms in muscle development and function is unclear. Therefore, we have undertaken a comprehensive expression analysis of TRalpha 1, TRbeta 1, TRbeta 2 (TH binding), and TRalpha 2 (non-TH binding) in functionally distinct porcine muscles during prenatal and postnatal development. Use of a novel and highly sensitive RNase protection assay revealed striking muscle-specific developmental profiles of all four TR isoform mRNAs in cardiac, longissimus, soleus, rhomboideus, and diaphragm. Distribution of TR isoforms varied markedly between muscles; TRalpha expression was considerably greater than TRbeta and there were significant differences in the ratios TRalpha 1:TRalpha 2, and TRbeta 1:TRbeta 2. Together with immunohistochemistry of myosin heavy chain isoforms and data on myogenesis and maturation of the TH axis, these findings provide new evidence that highlights central roles for 1) TRalpha isoforms in fetal myogenesis, 2) the ratio TRalpha 1:TRalpha 2 in determining cardiac and skeletal muscle phenotype and function; 3) TRbeta in maintaining a basal level of cellular response to TH throughout development and a specific maturational function around birth. These findings suggest that events disrupting normal developmental profiles of TR isoforms may impair optimal function of cardiac and skeletal muscles.
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PMID:Developmental expression analysis of thyroid hormone receptor isoforms reveals new insights into their essential functions in cardiac and skeletal muscles. 1138 34

Clinical and experimental data suggest a low thyroid hormone synthesis in cold thyroid nodules (CTN). Therefore, the Na(+)/I(-)-symporter (NIS) as the first step in the thyroid hormone synthesis could be a possible candidate gene in the pathogenesis of CTNs. A reduction of NIS transcripts in CTNs compared to samples of normal thyroid tissues with large inter-individual variations ranging from 2- to 700-fold reductions was observed with real-time RT-PCR. Therefore, the aim of our investigations was to perform an intra-individual comparison of NIS expression in CTNs. Moreover, we used direct detection of NIS mRNA by RNase protection assay (RPA). We investigated 14 patients with one CTN for NIS mRNA expression. NIS mRNA transcripts from nodule and surrounding tissue were examined by RPA. A significantly reduced NIS expression was detected in 86% of the CTNs compared to their corresponding surrounding tissue. The level of NIS expression was decreased to more than 65% in 10 CTNs (72% of the nodules). Two of the 14 nodules showed a decrease of NIS mRNA expression of 42%, and 32%, while no significant differences could be detected in 2 cold nodules. Compared to other studies the intra-individual comparison of NIS mRNA expression revealed a much lower variation of reduced NIS expression in CTNs. Further studies should try to identify molecular factors like post-transcriptional modifications or alterations in iodide organification which are likely to be involved in the pathogenesis of CTNs.
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PMID:Sodium/iodide symporter mRNA expression in cold thyroid nodules. 1157 39

The aim of this work was to study the influence of the endocrine balance between thyroid hormones, insulin and growth hormone (GH) on the regulation of insulin-like growth factor binding proteins (IGFBPs), complementing a study previously reported for insulin-like growth factors (IGFs) in similar populations. Serum concentrations of IGFBPs-1 to -3 were assayed by Western ligand blot and their mRNA expression in the liver assayed by RNase protection assay in the hypothyroid populations: thyroidectomized and mercapto-1-methylimidazole (MMI)-treated neonates, and thyroidectomized adult rats at different periods after thyroidectomy. Serum concentrations of insulin, GH and IGF-I were increased in thyroidectomized neonates and decreased in the other populations. IGFBPs-1 and -2 increased 79% and 50% respectively in thyroidectomized neonatal rats compared with control at 15 days after thyroidectomy, whereas only IGFBP-2 increased (87%) in MMI-treated neonates, which had low serum insulin and GH compared with control on the same days. In thyroidectomized adult rats, IGFBPs-1 and -2 decreased 60% compared with controls on all days studied. Furthermore, when streptozotocin was administered to thyroidectomized neonates and insulin was given to thyroidectomized adult rats to restore insulin to control values in both groups, a differential regulation was found for IGFBPs-1 and -2. The transcriptionally induced decrease in IGFBP-3 (20-25% compared with control in neonates and 50% in adult rats), however, seemed to be regulated by GH and IGF-I. The similarity of changes in IGFBPs found in hypothyroid, undernourished and streptozotocin-induced diabetic neonatal rats suggests that the regulatory effect of insulin or GH on the IGFBPs requires the reduced biologically active thyroid hormone that is found in these three populations.
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PMID:Influence of hypothyroidism on circulating concentrations and liver expression of IGF-binding proteins mRNA from neonatal and adult rats. 1183 54

Atrial fibrillation is one of the common arrhythmias associated with hyperthyroidism. This study examined the effects of thyroid hormone (T3) on mRNA expression and currents of major ionic channels determining the action potential duration (APD) in the rat atrium using the RNase protection assay and the whole-cell patch-clamp technique, respectively. T3 increased the Kv1.5 mRNA expression and decreased the L-type calcium channel mRNA expression, while the Kv4.2 mRNA expression did not change. APD was shorter in hyperthyroid than in euthyroid myocytes. The ultrarapid delayed rectifier potassium currents were remarkably increased in hyperthyroid than in euthyroid myocytes, whereas the transient outward potassium currents were unchanged. L-type calcium currents were decreased in hyperthyroid than in euthyroid myocytes. T3 shifted the current-voltage relationship for calcium currents negatively. In conclusion, T3 increased the outward currents and decreased the inward currents. The resultant changes of ionic currents shortened APD, providing a substrate for atrial fibrillation.
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PMID:Thyroid hormone regulates mRNA expression and currents of ion channels in rat atrium. 1291 68

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