Efeito da triiodotironina e do GC-1, um tireomimético seletivo pela isoforma b do receptor de hormônio tireoideano, sobre parâmetros histomorfométricos e biomecânicos do tecido ósseo de roedores adultos. / Effect of triiodothyronine and GC-1, a thyroid hormone receptor b-selective thyromimetic, on histomorphometric and biomechanical parameters of bone tissue of adult rodents.

Costa, Cristiane Cabral

03 November 2008

Ratas adultas foram tratadas com 2.5, 5, 10, 20 e 40x a dose fisiológica de triiodotironina (T3) por 10 semanas. Houve redução, dose-dependente, da massa óssea, volume e espessura trabecular (Tb.Th), e espessura de osso cortical. Até a dose de 10xT3, houve aumento na taxa de formação óssea (BFR). Doses maiores de T3 reduziram a BFR, e a reabsorção óssea. Esses dados mostram que, até um certo grau de tireotoxicose, a osteopenia é resultado de aumento da formação e reabsorção ósseas, com predomínio da última. Em graus mais elevados, a osteopenia é causada por redução no remodelamento ósseo, com predomínio da atividade reabsortiva. Em seguida, comparamos os efeitos do T3 e GC-1, um tireomimético seletivo pelo receptor b de T3 (TRb), no osso de camundongos fêmeas adultas. Na tíbia, o T3 reduziu a resistência, rigidez e resiliência, enquanto o GC-1 aumentou esses parâmetros e a Tb.Th, o que mostra que o GC-1 melhora a qualidade óssea. Considerando-se a seletividade do GC-1 pelo TRb, esses achados sugerem que o TRb medeia predominantemente ações positivas do T3 no osso. / Adult rats were treated with 2.5, 5, 10, 20 and 40x the physiological dose of triiodothyronine (T3) for 10 weeks. There was a dose-dependent reduction in bone mass, trabecular volume and thickness (Tb.Th), and cortical thickness. Up to 10xT3, there was an increase in the bone formation rate (BFR). Higher doses of T3 decreased BFR and bone resorption. These data show that, up to a certain degree of thyrotoxicosis, osteopenia is the result of an increase in bone formation and resorption, with a prevalence of resorption. In more severe thyrotoxicosis, the osteopenia is caused by a reduction in bone remodeling, with a predominance of bone resorption. Then, we compared the effects of T3 and GC-1, a thyromimetic that is selective for T3 receptor b (TRb), on bone of adult female mice. T3 treatment decreased tibial resistance, stiffness and resilience, while GC-1 increase these parameters and Tb.Th, showing that GC-1 improves bone quality. Considering the selectiveness of GC-1 for TRb, these findings suggest that TRb mediates mainly positive actions of T3 in the bone.

Bone densitometry

Bone hystomorphometry

Bone Quality

Densitometria óssea

GC-1

GC-1

Histomorfometria óssea

Hormônio da tireóide

Qualidade óssea

Receptor do hormônio tireoideano

Thyroid hormone

Thyroid hormone receptor

Efeito da triiodotironina e do GC-1, um tireomimético seletivo pela isoforma b do receptor de hormônio tireoideano, sobre parâmetros histomorfométricos e biomecânicos do tecido ósseo de roedores adultos. / Effect of triiodothyronine and GC-1, a thyroid hormone receptor b-selective thyromimetic, on histomorphometric and biomechanical parameters of bone tissue of adult rodents.

Cristiane Cabral Costa

03 November 2008

Ratas adultas foram tratadas com 2.5, 5, 10, 20 e 40x a dose fisiológica de triiodotironina (T3) por 10 semanas. Houve redução, dose-dependente, da massa óssea, volume e espessura trabecular (Tb.Th), e espessura de osso cortical. Até a dose de 10xT3, houve aumento na taxa de formação óssea (BFR). Doses maiores de T3 reduziram a BFR, e a reabsorção óssea. Esses dados mostram que, até um certo grau de tireotoxicose, a osteopenia é resultado de aumento da formação e reabsorção ósseas, com predomínio da última. Em graus mais elevados, a osteopenia é causada por redução no remodelamento ósseo, com predomínio da atividade reabsortiva. Em seguida, comparamos os efeitos do T3 e GC-1, um tireomimético seletivo pelo receptor b de T3 (TRb), no osso de camundongos fêmeas adultas. Na tíbia, o T3 reduziu a resistência, rigidez e resiliência, enquanto o GC-1 aumentou esses parâmetros e a Tb.Th, o que mostra que o GC-1 melhora a qualidade óssea. Considerando-se a seletividade do GC-1 pelo TRb, esses achados sugerem que o TRb medeia predominantemente ações positivas do T3 no osso. / Adult rats were treated with 2.5, 5, 10, 20 and 40x the physiological dose of triiodothyronine (T3) for 10 weeks. There was a dose-dependent reduction in bone mass, trabecular volume and thickness (Tb.Th), and cortical thickness. Up to 10xT3, there was an increase in the bone formation rate (BFR). Higher doses of T3 decreased BFR and bone resorption. These data show that, up to a certain degree of thyrotoxicosis, osteopenia is the result of an increase in bone formation and resorption, with a prevalence of resorption. In more severe thyrotoxicosis, the osteopenia is caused by a reduction in bone remodeling, with a predominance of bone resorption. Then, we compared the effects of T3 and GC-1, a thyromimetic that is selective for T3 receptor b (TRb), on bone of adult female mice. T3 treatment decreased tibial resistance, stiffness and resilience, while GC-1 increase these parameters and Tb.Th, showing that GC-1 improves bone quality. Considering the selectiveness of GC-1 for TRb, these findings suggest that TRb mediates mainly positive actions of T3 in the bone.

Densitometria óssea

GC-1

Histomorfometria óssea

Hormônio da tireóide

Qualidade óssea

Receptor do hormônio tireoideano

Bone densitometry

Bone hystomorphometry

Bone Quality

GC-1

Thyroid hormone

Thyroid hormone receptor

Identifying Endogenous Binding Partners of Btf and TRAP150

Hudson, Jaylen Braxton

03 June 2020

No description available.

Biology

Bioinformatics

Biomedical Research

Biochemistry

Btf

TRAP150

BCLAF1

THRAP3

Bcl-2 associated transcription factor 1

SR-related

SR proteins

Endogenous

Binding Partners

TET proteins, New Cofactors for Nuclear Receptors / Les protéines TET, Nouveaux Régulateurs des Récepteurs Nucléaires

Guan, Wenyue

06 July 2017

L'hormone thyroïdienne (T3) contrôle à la fois les processus développementaux et physiologiques. Elle agit via les récepteurs de l'hormone thyroïdienne (TR), membres de la famille des récepteurs hormonaux nucléaires. Ils agissent comme des facteurs de transcription dépendants du ligand. La méthylation de l'ADN en position 5 de la cytosine est une modification épigénétique importante qui affecte la structure de la chromatine et l'expression des gènes. Des études récentes ont établi un rôle important des protéines de la famille TET (Ten-eleven translocation) dans la régulation de la dynamique de la méthylation de l'ADN. Elles convertissent la 5-méthyl-cytosine (5mC) en 5-hydroxyméthylcytosine (5hmC). D’autres études ont démontré que les protéines TET (TET1, TET2 et TET3) possèdent des fonctions de régulation transcriptionnelle dépendantes et indépendantes de leur activité catalytique. Notre étude a identifié TET3 comme une nouvelle protéine interagissant avec TR. Le domaine AF2 de TR ainsi que le domaine catalytique et le domaine CXXC de TET3 sont responsables de cette interaction. Celle-ci permet la stabilisation de TR lié à la chromatine, entraînant une potentialisation de son activité transcriptionnelle. L'effet de modulation de TET3 sur TR présenté ici est indépendant de son activité hydroxylase de TET3. Ainsi, cette étude met en évidence un nouveau mode d'action de TET3 en tant que régulateur non classique de TR, modulant sa stabilité et son accès à la chromatine plutôt que son activité de transcription intrinsèque. Des mutations du gène codant pour TRα provoquent le symptôme RTHα dont la gravité varie en fonction de la mutation. Les différentes capacités d’interaction des mutants TRα, pertinents pour la maladie de RTHα humaine, avec TET3 pourraient expliquer les différences d’effet dominant négatif. La fonction de régulation de TET3 pourrait s’appliquer plus généralement aux facteurs de transcription des récepteurs nucléaires, car différents membres de la superfamille des récepteurs nucléaires présentent la même interaction avec TET3, tels que AR (récepteur des androgènes), ERR (récepteur des œstrogènes) et RAR (récepteur de l'acide rétinoïque). L'interaction entre TET3 et RAR implique le domaine de liaison ADN de RAR. La pertinence fonctionnelle de l'interaction TET3 / RAR a été étudiée plus en détail dans les cellules souches embryonnaire (cellules ES). L’absence combinée des trois TET a entraîné la diminution de 5hmC et la dérégulation des gènes impliqués dans la différenciation des cellules ES. Parmi les gènes dérégulés, nous avons identifié un sous-ensemble de gènes cibles de l’acide rétinoïque, suggérant que les RAR (récepteurs d'acide rétinoïque) et les TET pourraient travailler ensemble pour réguler la différenciation des cellules ES. Une étude supplémentaire a révélé que les protéines TET peuvent jouer un rôle dans la facilitation du recrutement de RAR aux régions promotrices de ses gènes cibles. En outre, nos résultats montrent un rôle potentiel de l'activité hydroxylase des protéines TET dans la modulation de l'activité transcriptionnelle des RAR. En conclusion, notre travail a identifié les protéines TET comme nouveaux régulateurs des récepteurs nucléaires. Les mécanismes exacts impliqués doivent être étudiés plus avant. / Thyroid hormone (T3) controls both developmental and physiological processes. Its nuclear receptors, thyroid hormone receptors (TRs), are members of the nuclear hormone receptor family which act as ligand-dependent transcription factors. DNA methylation at the fifth position of cytosine is an important epigenetic modification that affects chromatin structure and gene expression. Recent studies have established a critical function of the Ten-eleven translocation (TET) family proteins in regulating DNA methylation dynamics by converting 5-methyl-cytosine (5mC) into 5-hydroxymethylcytosine (5hmC). Studies demonstrated that TETs proteins (including TET1, TET2 and TET3) possess catalytic activity dependent and independent transcriptional regulatory functions. Our study identified TET3 as a new TR interacting protein. The AF2 domain of TR and the catalytic domain and CXXC domain of TET3 are responsible for their interaction. This interaction allows the stabilization of chromatin bound TR, resulting in a potentiation of its transcriptional activity. The modulation effect of TET3 on TR presented here is independent of its hydroxylase activity. Thus this study evidences a new mode of action for TET3 as a non-classical regulator of TR, modulating its stability and access to chromatin rather that its intrinsic transcriptional activity. Mutations in TR cause the RTH symptom which severity varies with the particular mutation. The differential ability of different TRα mutants, relevant for the human RTHα disease, to interact with TET3 might explain their differential dominant negative activity. The regulatory function of TET3 might be more general towards the nuclear receptor transcriptional factors since different members of the superfamily present the same interaction with TET3, such as AR (androgen receptor), ERR (Estrogen-related receptor) and RAR (retinoic acid receptor). The interaction between TET3 and RAR involves the DNA binding domain of RAR. The functional relevance of TET3/RAR interaction was further studied in ES cells. Combined deficiency of all three TETs led to depletion of 5hmC and deregulation of genes involved in ES differentiation. Among the deregulated genes, a subset of RA response genes was identified, suggesting that RARs (retinoic acid receptors) and TETs might work together to regulate ES cell differentiation. Further dissection revealed that TET proteins may have a role in facilitating RAR recruitment to the promoter regions of these RAR target genes. Moreover, our results indicated a potential role of the hydroxylase activity of TET proteins in modulating RAR transcriptional activity. Altogether, our work identified TET proteins as new regulators of NR (Nuclear Receptors). The exact mechanisms involved need to be further studied.

Récepteur d'hormone Thyroïdienne (TR)

Méthylcytosine Dioxygénase TET3

Stabilité des Protéines

Recrutement à la Chromatine

Syndrome RTH

Thyroid Hormone Receptor (TR)

Methylcytosine dioxygenase TET3

Protein Stability

Chromatin recruitment

RTH syndrome

Retinoic acid receptor (RAR)

Mapování regulačních elementů v 5' oblasti lokusu Disp3 / Mapping of regulatory elements within 5' region of the Disp3 locus

Oltová, Jana

January 2012

Dispatched 3 (Disp3), a thyroid hormone-regulated gene, is studied extensively in our laboratory. Phenotype of cells with overexpressed Disp3 and its expression pattern make it a perfect candidate for a molecular link between thyroid hormone action and cholesterol homeostasis in the brain. Moreover, we hypothesize that it might play a role in certain neurodegenerative disorders and brain tumours. This thesis is aimed at the process of regulation of this gene via thyroid hormone receptor (TR), specifically identification of responsive elements of the thyroid hormone receptor that are necessary for the regulation. Also, we searched for elements recognized by liver X receptor (LXR), as LXR binds to the same arrangement of repeats as TR and there are a number of genes regulated by both of them. We combined in silico analysis of the Disp3 locus with reporter luciferase assays. A cluster of six elements identified around the first exon with two of them being conserved among human and mice draw our attention. In order to analyze this sequence in more detail, reporter vectors of various truncations of 3 kb region around exon 1 were constructed and tested in reporter assays. Reporter assays did not reveal any substantial element activated by TR or LXR; on the other hand, region containing repressor element(s)...