EC:3.1.27.4 - FACTA Search

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Query: EC:3.1.27.4 (ribonuclease)
6,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of both 3,5,3'-triiodo-L-thyronine and spontaneous metamorphosis on Rana catesbeiana liver mRNA were studied using in vitro translation of isolated liver poly(A)+ RNA in a rabbit reticulocyte lysate system. Conventional phenol extraction methods yielded degraded RNA due to high levels of endogenous ribonucleases released upon homogenization of Rana catesbeiana liver. Isolation of intact total RNA was achieved using the potent ribonuclease denaturant, guanidinium thiocyanate. Adult bullfrog serum albumin was purified to homogeneity and a monospecific antibody was elicited against it. A serum protein of 23,000 daltons that migrated near serum albumin on a 6% native gel was also purified to homogeneity. A monospecific antibody was also raised against this protein. Both antibodies were used to quantitatively immunoprecipitate the in vitro translation products of poly(A)+ RNA isolated at intervals following a single injection of triiodothyronine or during various stages of spontaneous amphibian metamorphosis. Triiodothyronine caused a sevenfold increase in translatable albumin mRNA and a threefold increase in translatable mRNA for the 23,000 dalton protein. These increases are consistent with a nuclear initiated mechanism for thyroid hormone action during amphibian metamorphosis.
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PMID:Triiodothyronine increases translatable albumin messenger RNA in Rana catesbeiana tadpole liver. 314 56

Chronic administration of thyroid hormone (T3) increases apolipoprotein (apo) A-I gene expression in rat liver. That transcriptional activity of the apoA-I gene is reduced to 50% of control, whereas abundance levels of nuclear and total cellular apoA-I mRNA are increased 3-fold, implies more effective apoA-I mRNA maturation. To study hormonal effects on apoA-I RNA processing, we quantified mRNA precursors in control and T3-treated rats (50 micrograms/100 g body weight for 7 days). Northern blotting, amplification of reverse-transcribed RNA, and ribonuclease protection assays showed that the splicing pathway is branched, in that either intron 1 or intron 2 is removed first from the primary transcript, whereas intron 3 is removed last. In T3-treated rats, abundance levels of the primary transcript, the intron 1-containing precursor devoid of intron 2, the intron 2-containing precursor devoid of intron 1, the intron 3-containing precursor lacking both introns 1 and 2, and nuclear mRNA were 65, 183, 78, 195, and 268% of controls. Compared with control rats, the half-life of the intron 1-containing precursor, measured after injection of actinomycin D, was increased 2-fold in T3-treated rats. In contrast, half-lives of the primary transcript and the intron 2-containing precursor were similar in control and T3-treated rats. Ribonuclease protection assays revealed an RNA species extending from the transcription start site close to the 3' end of intron 1. The abundance of this RNA fragment, probably representing a degradation product, was 2.5-fold higher in control than in T3-treated animals (p < 0.001). Sequences of apoA-I mRNA precursors were identical in control and T3-treated rats which excluded hormonal effects on splice-site selection or post-transcriptional editing of apoA-I transcripts. Compartmental modeling of apoA-I mRNA processing suggested that chronic thyroid hormone administration enhances apoA-I mRNA maturation more than 7-fold by protecting the intron 1-containing precursor devoid of intron 2 from degradation and by facilitating the splicing of intron 1 from this precursor.
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PMID:Thyroid hormone influences the maturation of apolipoprotein A-I messenger RNA in rat liver. 787 47

Retinoids are metabolites of vitamin A that can regulate gene expression in a range of embryonic and adult cell types. They do this by binding to nuclear receptors belonging to the steroid/thyroid hormone receptor superfamily of ligand-activated transcription factors. Vertebrates possess two classes of nuclear retinoid-receptor genes, each with three members. These are the RAR-alpha, RAR-beta and RAR-gamma genes and the RXR-alpha, RXR-beta and RXR-gamma genes. In this paper we show by cDNA cloning and ribonuclease protection that the chicken RXR-gamma gene gives rise to two mRNA species (RXR-gamma 1 and RXR-gamma 2) that differ at their 5' ends. The two mRNAs have different tissue distributions in the 10-day-old chick embryo. RXR-gamma 2 mRNA was present in the eye and dorsal root ganglia but was undetectable in the liver. In contrast, RXR-gamma 1 mRNA was present in liver, was undetectable in dorsal root ganglia and was just detectable in the eye, where it was much less abundant than RXR-gamma 2 mRNA. The predicted protein products of the RXR-gamma 1 and RXR-gamma 2 mRNAs differ at their N-termini, in a region thought to modulate transcriptional transactivation by the receptor. These results show that at least one of the retinoid-X-receptor (RXR) genes gives rise to more than one protein product, a principle previously established for the retinoic acid-receptor (RAR) genes. The existence of multiple RXR protein isoforms would increase the range of heterodimers formed between RXRs and other nuclear receptors, including RARs and the receptors for thyroid hormone, vitamin D and peroxisome proliferators. This could increase the diversity of transcriptional responses mediated by these molecules.
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PMID:The chicken retinoid-X-receptor-gamma gene gives rise to two distinct species of mRNA with different patterns of expression. 803 82

Impairment of growth is a hallmark of hypothyroidism in animals. The ability of the thyroid hormone-thyroid hormone receptor complex to regulate gene transcription may be relevant to the growth impairment associated with hypothyroidism. To study the role of thyroid hormone in the expression of the GH receptor (GHR) and GH-binding protein (GHBP) gene, we examined the serum and liver tissue of female and male hypothyroid (thyroidectomized), thyroxine-treated thyroidectomized and euthyroid control rats. Compared to the control and to the thyroxine-treated group, the hypothyroid rats had significantly lower serum levels of thyroxine, increased levels of TSH, and decreased rates of weight gain. GHR and GHBP mRNA levels in liver were estimated by ribonuclease protection assays. In female rats, the levels of hepatic GHR and GHBP mRNA were increased in the hypothyroid group compared to euthyroid controls (p < 0.001 for GHR and p < 0.05 for GHBP). In contrast, in males the hypothyroid state was associated with decreased levels of GHR (p < 0.001) and GHBP (p < 0.001) mRNA levels compared to euthyroid controls. In both females and males, administration of thyroxine for a period of 2 weeks to the thyroidectomized rats prevented these changes in GHR and GHBP mRNA levels in liver. The differences observed between females and males could not be attributed to differences in the circulating levels of GH at sacrifice (female vs. male. 9.9 +/- 1.3 vs. 13.9 +/- 6.5 ng/ml). We conclude that (1) thyroid hormone affects the transcription of the GHR/GHBP gene; (2) there is a distinct sexual dimorphism in the effect of hypothyroidism on the expression of the GHR/GHBP gene, and (3) this effect is reversible following amelioration of the hypothyroid state. We speculate that regulation of expression of the GHR/GHBP gene by thyroid hormones involves multiple thyroid response elements that have opposite effects depending on the status of other factors such as sex hormones.
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PMID:Distinct sexual dimorphism in the effect of hypothyroidism on the expression of the growth hormone receptor and growth hormone-binding protein gene in rat liver. 879 21

The GH-releasing hormone receptor (GHRH-R) is a critical link between hypothalamic GH-releasing hormone (GHRH) and pituitary GH secretion. However, the factors that regulate GHRH-R are not well understood. Despite the importance of thyroid hormone and glucocorticoids in influencing the GH axis in vivo, it is not known whether these hormones act directly at the pituitary to regulate expression of GHRH-R. We tested the effects of T3 and hydrocortisone on GHRH-R gene expression in primary pituitary cell cultures of adult male rats. Pituitary cells were treated for 24h with increasing concentrations of T3 (0.06-60 nM) or hydrocortisone (2.8 nM-2.8 microM). GHRH-R mRNA levels were assessed by ribonuclease protection assay. T3 caused a striking dose-dependent increase in GHRH-R mRNA, reaching levels 5.1 +/- 0.5 fold over controls (P < 0.001). Hydrocortisone also stimulated a marked dose-dependent increase in GHRH-R mRNA, reaching levels 5.6 +/- 0.7 fold over controls (P < 0.001). Combined treatment with both hormones did not cause further augmentation of GHRH-R mRNA levels. These data indicate that T3 and hydrocortisone act directly at the pituitary as potent regulators of GHRH-R gene expression.
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PMID:Thyroid hormone and glucocorticoid regulation of pituitary growth hormone-releasing hormone receptor gene expression. 907 92

Pre-translational regulation of subunit c has been suggested to control the biosynthesis of mitochondrial ATP synthase (ATPase) in brown adipose tissue (BAT). Subunit c is encoded by the genes P1 and P2, which encode identical mature proteins. We have determined here the levels of P1 and P2 mRNAs in different tissues, in response to cold acclimation in rats, during ontogenic development of BAT in hamsters, and following thyroid hormone treatment in rat BAT and liver. Quantitative ribonuclease protection analysis showed that both the P1 and P2 mRNAs were present in all rat tissues measured. Their total amount in each tissue corresponded well with the ATPase content of that tissue. While the P1/P2 mRNA ratio is high in ATPase-rich tissues, the P2 mRNA dominates in tissues with less ATPase. Cold acclimation affects P1 but not P2 gene expression in rat BAT. A rapid and transient increase in P1 mRNA is followed by sustained depression, which is accompanied by a decrease in ATPase content. Similarly, ontogenic suppression of ATPase content in hamster BAT was accompanied by suppression of the P1 mRNA levels, while P2 expression was virtually unchanged. Furthermore, when hypothyroid rats were treated with thyroid hormone, the steady-state level of P1 but not of P2 mRNA was significantly increased in liver. BAT was unaffected. We conclude that the P1 and P2 genes for subunit c are differentially regulated in vivo. While the P2 gene is expressed constitutively, the P1 gene responds to different physiological stimuli as a means of modulating the relative content of ATP synthase.
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PMID:ATP synthase subunit c expression: physiological regulation of the P1 and P2 genes. 916 27

The importance of thyroid hormone from embryonic through neonatal life has been documented in both avian and mammalian species. However, the regulation of thyroid hormone production during this period is not completely understood. The objective of this study was to characterize expression of chicken TSHbeta messenger RNA (mRNA) compared with that of thyroid hormones and GH in embryonic and neonatal chickens. Total pituitary RNA was extracted on embryonic days (e-) 11, 13, 15, 17, and 19 and neonatal days (d-) 1, 3, 6, 9, and 12 and subjected to ribonuclease protection assays (RPA) for chicken TSHbeta mRNA. TSHbeta mRNA levels increased through e-19, with e-19 levels being greater than those at all other embryonic ages (P < 0.05). Levels decreased markedly on d-1, then slowly increased to d-6 and stayed elevated through d-12. RIAs were performed for T4, T3, and GH at the same ages. Serum T4 levels increased slowly from less than 1.0 ng/ml on e-11 to a peak of 6.6 ng/ml on d-1 (P < 0.05). After the peak on d-1, posthatch T4 levels stabilized between 3.5-4.5 ng/ml through d-12 (P < 0.05). T3 concentrations were less than 0.25 ng/ml on e-11, increased dramatically between e-19 and d-1 (P < 0.05), and remained high throughout the rest of the experiment, with a concentration of 3.25 ng/ml on d-6 (P < 0.05). GH levels for e-11 through e-17 were below the sensitivity of the GH RIA. On e-19, the GH level was 3 ng/ml and continued to increase through d-12 to a level of 130 ng/ml. As thyroid hormone levels were preceded by maximal TSHbeta mRNA levels on e-19, we next determined whether TSHbeta gene expression on e-19 was under TRH and T3 regulation. E-19 anterior pituitary cells were cultured in serum-free medium with either TRH (10[-8]) or T3 (10[-8]) for 20-24 h. Treatment with T3 significantly decreased levels of TSHbeta mRNA (P < 0.05). However, TRH did not produce a significant increase in TSHbeta mRNA, although TRH did increase TSHbeta mRNA by 60%, on the average, in this study. Therefore, these results indicate that an increase in pituitary TSH production probably regulates thyroid hormone levels during late embryonic development and that negative feedback inhibition of TSH production by thyroid hormones also exists at this critical developmental stage.
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PMID:Expression of chicken thyroid-stimulating hormone beta-subunit messenger ribonucleic acid during embryonic and neonatal development. 944 13

Effects of thyroid hormones on cardiac function or rhythm have been known; however, the mechanism is still unclear. In the present study examined were effects of triiodethyronine (T3) on voltage-gated potassium channel gene expression in rat heart since the potassium channels were presumed to modulate cardiac functions. The mRNA expression of five voltage-gated potassium channel gene alpha subunits (Kv1.2, Kv1.4, Kv1.5, Kv2.1, and Kv4.2) in heart was examined by ribonuclease protection assay in rats which were treated with T3 or propylthyouracil (PTU). All these genes except Kv1.4 mRNA were apparently expressed in the normal rat heart ventricle. Kv1.2 mRNA expression in ventricle was markedly suppressed by T3-treatment and enhanced by PTU-treatment. Interestingly, upregulation of Kv1.4 mRNA expression and downregulation of Kv1.5 mRNA expression were concomitantly induced in the ventricle by the PTU-treatment. In addition, the downregulation of the ventricular Kv1.5 mRNA expression induced by PTU was restored by T3 replacement. No changes of Kv2.1 and Kv4.2 mRNA expression were observed in the ventricles by the T3- or PTU-treatment. In heart atrium the same findings were observed. Kv1.4 mRNA expression, which was detectable in control rat atrium, also decreased significantly by T3-treatment. In contrast, no changes of Kv1.2, Kv1.4, and Kv1.5 mRNA expression in rat brains were induced by T3-treatment. These findings suggest that thyroid hormone specifically influences mRNA expression of Shaker-related potassium channel genes in rat hearts through a common T3 receptor-mediated regulation at a transcriptional level.
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PMID:Thyroid hormone regulates expression of shaker-related potassium channel mRNA in rat heart. 953 13

Deficiency of thyroid hormone (TH) during the perinatal period results in severe neurological abnormalities in rodent cerebellar development. However, the molecular mechanisms of TH action in the developing cerebellum are not fully understood. Of note, a mutant mouse, staggerer, in which the orphan nuclear hormone receptor ROR alpha gene is disrupted, exhibits cerebellar abnormalities similar to those seen in the hypothyroid animals, despite normal thyroid function. We, therefore, speculated that TH (tetraiodo-L-thyronine; T4) may regulate ROR alpha gene expression, which then may regulate genes essential for normal brain development. To test this hypothesis, we studied the changes in ROR alpha gene expression in perinatal hypothyroid rat cerebellum and the effect of TH replacement using Northern blot analysis, ribonuclease protection assay and in situ hybridization histochemistry. During cerebellar development, an approximately 3-fold increase in the cerebellar content of ROR alpha messenger RNA (mRNA) was seen in both propylthiouracil-treated, and propylthiouracil-treated and T4-replaced animals. However, the increase was accelerated when T4 was injected, although the ROR alpha mRNA content was identical, with or without T4, by 30 days after birth (P30). In contrast, T4 treatment suppressed the TH receptor alpha1 and c-erbA alpha2 mRNA content by P30; retinoic acid X receptor-beta mRNA content was not influenced by thyroid status. A significant hybridization signal for ROR alpha mRNA was seen only over Purkinje cells in the cerebellar cortex by in situ hybridization histochemistry. These results indicate that TH alters the timing of expression of the ROR alpha gene in the Purkinje cells of the cerebellar cortex, which may, in turn, influence Purkinje cell differentiation.
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PMID:ROR alpha gene expression in the perinatal rat cerebellum: ontogeny and thyroid hormone regulation. 956 42

Protein disulfide isomerase (PDI) is an enzyme that participates in the formation of disulfide bonds. It is also known to be the subunits of some enzymes and the membrane-associated thyroid hormone-binding protein. In this study, we measured the quantitative distribution of PDI protein in rat tissues and examined the relationship between protein level and enzyme activity in PDI during fasting and refeeding. Western blotting with specific anti-PDI antiserum detected the PDI protein band of 55 kd. Among several tissues, liver contained the largest amount of PDI protein, followed by kidney and fat, in which one-third to one-fourth of the hepatic PDI protein existed. The PDI protein band was also detected in heart and muscle. Fasting for 3 days decreased PDI protein levels in rat liver by 40%; control levels were recovered after 3 days of refeeding. The same change was observed in kidney. PDI activity, measured by the scrambled ribonuclease method, did not show the parallel alteration to PDI protein level in liver and kidney. Isomerase activity decreased to 50% of control values during fasting, but did not recover by refeeding. Thyroidal status did not affect either PDI protein level or isomerase activity. These findings show that fasting and refeeding affect PDI protein and enzyme activity, and that PDI protein level does not always reflect PDI activity.
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PMID:Alterations in the enzyme activity and protein contents of protein disulfide isomerase in rat tissues during fasting and refeeding. 975 Dec 37

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