Differential expression of mutant and normal beta T3 receptor alleles in kindreds with generalized resistance to thyroid hormone.

Mixson, A. James; Hauser, Péter; Tennyson, G E; Renault, Justine; Bodenner, Donald; Weintraub, Bruce D.

doi:10.1172/jci116458

Cited by 57 publications

(23 citation statements)

References 25 publications

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“…The only two studies that address this issue reported conflicting results (28,29). In the first study, the severity of growth delay in a kindred with RTH correlated with the increased ratio of mutant to wild-type TR␤1 mRNA in fibroblasts (28). However, in a second study, no correlation was found between the relative ratios of mutant and normal TR␤1 mRNA in fibroblasts and the clinical phenotype of RTH patients (29).…”

Section: Discussionmentioning

confidence: 99%

“…One of the unresolved issues in understanding the molecular basis of RTH has related to the relative levels of mutant to wild-type TR␤1 protein to produce a clinical phenotype in different organs. The only two studies that address this issue reported conflicting results (28,29). In the first study, the severity of growth delay in a kindred with RTH correlated with the increased ratio of mutant to wild-type TR␤1 mRNA in fibroblasts (28).…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Hormone binding induces rapid proteasome-mediated degradation of thyroid hormone receptors

Dace

Zhao

Park

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

133

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The thyroid hormone 3,3,5-triiodo-L-thyronine (T3) is essential for growth, differentiation, and development. Its biological activities are mediated by T3 nuclear receptors (TRs). At present, how T3 regulates TR proteins and the resulting functional consequences are still unknown. Immunofluorescence analyses of endogenous TR in the growth hormone-producing GC cells showed that the T3-induced rapid degradation of TR was specifically blocked by lactacystin, a selective inhibitor of the ubiquitin-proteasome degradation pathway. Immunoblots demonstrated that the transfected TR␤1 was ubiquitinated and that the ubiquitination was T3 independent. Studies with a series of truncated TR␤1 showed that the hormone-binding domain was sufficient for the T3-induced rapid degradation of TR␤1 by the proteasome degradation pathway. T3 also induced rapid degradation of TR␤2 and TR␣1. In contrast, the stability of the non-T3-binding TR␣2 and naturally occurring TR␤1 mutants that do not bind T3 was not affected by T3 treatment, indicating that hormone binding to receptor was essential for the degradation of the wild-type receptors. In the presence of proteasome protease inhibitors, the levels of both total and ubiquitinated TR␤1 protein increased, yet T3-dependent transcriptional activation and the expression of the growth hormone gene were diminished, suggesting that proteasome-mediated degradation played a novel role in modulating transcriptional activation by TR. The present study reveals a role of T3 in modulating the functions of TR by regulating its receptor level via the ubiquitin-proteasome degradation pathway. T he thyroid hormone 3,3Ј,5-triiodo-L-thyronine (T3) is essential in metabolic-energetic homeostasis, development, and differentiation. Its actions are mediated by thyroid hormone nuclear receptors (TRs), which regulate the expression of T3-targeted genes. TRs belong to a superfamily of hormone nuclear receptors functioning as ligand-activated transcription factors, which include receptors for steroid hormones, vitamin D3, and the retinoids (1). TR consists of domains including the Nterminal A͞B domain, the DNA-binding domain C, and the hormone-binding domain (domains D and E). Recent studies indicate that the transcriptional activity of TR depends not only on the type of the thyroid hormone response elements located on the promoter regions of T3 target genes but also on a host of corepressors and coactivators (2). In the absence of T3, TR binds to corepressors, such as N-CoR. Binding of T3 leads to the release of N-CoR from TR and recruitment of coactivators leading to gene activation (2). In this model, how TR proteins are regulated and the role of T3 in this process are unknown.Using biochemical methods, Samuels and Casanova have previously reported that T3 down-regulates its endogenous TR in growth hormone (GH)-producing GC cells (3). However, the underlying molecular mechanisms by which T3 downregulates the TR have not been elucidated. In this report, we demonstrated that the T3-induced degradation of TR was via ...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Hormone binding induces rapid proteasome-mediated degradation of thyroid hormone receptors

Dace

Zhao

Park

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

133

View full text Add to dashboard Cite

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“…This phenotypic variation can occur across families [38] and within the same family [57]. Finding differences in the relative expression level of the mutant relative to the normal TRβ allele has not been consistent [48,58]. Genetic variability of factors other than TRβ may modulate the phenotype of RTH.…”

Section: Variants Above)mentioning

confidence: 99%

Syndromes of Reduced Sensitivity to Thyroid Hormone

Weiss

Dumitrescu

Refetoff

2010

Genetic Diagnosis of Endocrine Disorders

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“…The inhibitory effect of T4 on cardiac collagen synthesis has been observed in rat, mouse and dog (Edgren et al 1976, Bonnin et al 1983, Yao & Eghbali 1992a,b, Kim et al 1996, Klein et al 1996, and it has been postulated that this negatively affects the supporting properties of the myocardial connective tissue (Edgren et al 1976). Fibroblasts from human skin biopsies express a thyroid hormone receptor (Mixson et al 1993), and it is possible that, besides the well-investigated collagen genes, novel thyroid hormone-responsive genes will be identified in (cardiac) fibroblasts. Indeed, the recently discovered ZAKI-4 gene, with an as yet unknown function, was identified in fibroblasts and found to be transcribed in heart and several other organs (Miyazaki et al 1996a,b).…”

Section: Introductionmentioning

confidence: 99%

Metabolism of thyroid hormones in cultured cardiac fibroblasts of neonatal rats

Heide

Visser²,

Everts³

et al. 2002

Journal of Endocrinology

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We have investigated the potential role of fibroblasts in local thyroid hormone metabolism in neonatal rat heart. Incubation of cardiac fibroblasts with thyroxine (T4) or 3,5,3 -tri-iodothyronine (T3) resulted in the appearance of water-soluble metabolites, whereas incubation of cardiomyocytes under the same conditions did not or did so to a much lesser extent. Time-course studies showed that production is already evident after 1-5 h of exposure and that the process equilibrates after 24-48 h. Analysis of the products revealed both the T4 and the T3 metabolites to be glucuronides. These results were corroborated by the detection of uridine diphosphate (UDP)-glucuronyltransferase activity in cardiac fibroblasts. We found no indication for outer ring deiodination in fibroblasts, cardiomyocytes or heart homogenates.From these results we have concluded that cardiac fibroblasts, but not cardiomyocytes, are able to glucuronidate T4 and T3 and secrete the conjugates. This could play a role in local metabolism, e.g. to protect the heart tissue from high levels of thyroid hormones.

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Differential expression of mutant and normal beta T3 receptor alleles in kindreds with generalized resistance to thyroid hormone.

Cited by 57 publications

References 25 publications

Hormone binding induces rapid proteasome-mediated degradation of thyroid hormone receptors

Hormone binding induces rapid proteasome-mediated degradation of thyroid hormone receptors

Syndromes of Reduced Sensitivity to Thyroid Hormone

Metabolism of thyroid hormones in cultured cardiac fibroblasts of neonatal rats

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