Mechanisms of vitamin D receptor and retinoid X receptor mediated hormone resistance and cell differentiation in normal and cancer cells

Macoritto, Michael.

January 2007

Vitamin D is a precursor to a steroid hormone, 1,25 dihydroxyvitamin D (1,25(OH)2D). After its discovery and the characterization of its receptor, the vitamin D receptor (VDR), it was initially thought only to be involved in calcium homeostasis, but further research revealed an important role for vitamin D in the regulation of cell growth and differentiation of such cells as osteoblasts and bone marrow adipocytes. 1,25(OH)2D has also been shown to be a strong inhibitor and pro-differentiator of keratinocytes. The anti-proliferative and pro-differentiative properties of this hormone have led to studies where 1,25(OH)2D anticancer properties were assessed and initial findings that showed a requirement of other factors beyond VDR to induce 1,25(OH)2D signaling led to the identification of the retinoid X receptor, a common heterodimeric partner for several hormone receptors. The focus of thesis was to further elucidate the structure-function relationship of both the vitamin D receptor and the retinoid X receptor. Additionally, contributions to work directed towards further identifying the effects of vitamin D on osteoblast differentiation and survival. Interactions of 1,25(OH) 2D3 with its cognate receptor, identifying a key amino acid (Tryptophan 286) required for ligand contact and transcriptional activation, are described in Chapter 2. Mechanisms of vitamin D action on mesenchymal stem cell differentiation, promotion of osteoblast induction and maturation, and inhibition of adipocyte differentiation, are eluicidated in Chapter 3. Chapter 4 illustrates the effects of RAS/RAF/Mitogen-activated protein kinase mediated RXRalpha phosphorylation on the three-dimensional structure of the RXR/nuclear receptor partner heterodimers. Furthermore, this chapter reveals the inhibitory effect of the phosphorylation of a critical amino acid (serine 260) on the interaction of the AF-2 domain of the RXR with several coactivators, resulting in a decrease in the signaling potential of multiple steroid hormone receptors. The findings of this thesis further the knowledge of several areas of vitamin D biology, including both the canonical areas of bone formation, and the non-canonical area of vitamin D and cancer.

Receptors, Calcitriol -- genetics.

Retinoid X Receptors -- genetics.

Ligands.

Hormones -- metabolism.

Bone and Bones -- metabolism.

Osteogenesis.

Phosphorylation.

Mechanisms of vitamin D receptor and retinoid X receptor mediated hormone resistance and cell differentiation in normal and cancer cells

Macoritto, Michael.

January 2007

No description available.

Receptors, Calcitriol -- genetics.

Ligands.

Osteogenesis.

Phosphorylation.

Bone and Bones -- metabolism.

Retinoid X Receptors -- genetics.

Hormones -- metabolism.

Rôle des récepteurs X aux rétinoïdes dans le contrôle des processus émotionnels chez la souris / The role of retinoid X receptors in the control of emotional processes in mice

Krzyzosiak, Agnieszka

20 January 2012

Rxry est l’un des récepteurs nucléaires impliqués dans la signalisation à l’acide rétinoïque. L’ablation de Rxry chez les souris provoque le développement de comportements de type dépressifs - désespoir et d’anhédonie. De tels déficits pouvaient être normalisés par des anti-dépresseurs tels que la fluoxetine, suggérant donc l’importance de telles données pour la recherche sur la dépression.Nous avons trouvé que le NAcSh est une structure impliquée dans le contrôle par Rxry des comportements motivés étant donné que la ré-expression de Rxry dans cette structure par le virus normalise les déficits comportementaux chez les souris Rxry-/-. Nous avons démontré que le récepteur Drd2 qui est sous-exprimé dans le NAcSh des souris Rxry-/- est nécessaire dans le contrôle des comportements affectifs étant donné que le blocage des activités du Drd2 par infusion de raclopride dans le NAcSh empêche le rétablissement du phénotype Rxry-/- par le virus AAV2-RxryCette observation est étayée par le rétablissement fonctionnel des déficits comportementaux par injection de virus ou traitement à la fluoxetine qui augmentent l’expression du Drd2 dans le NAcSh chez les souris Rxry-/-. Ces données sont la première démonstration que les récepteurs aux rétinoides sont impliqués dans le contrôle des comportements affectifs chez la souris.Nous avons observé que l’ablation de Rxry provoquent une hyperactivité du NAcSh. Nous avons observé des phénomènes similaires dans un modèle de stresse par défaite sociale. L’existence de telle corrélation dans deux modèles animaux distincts de comportements dépressifs suggère que l’hyperactivité du NacSh pourrait être un phénomène commun sous-tendant la dépression. / Rxry is one of nuclear receptors involved in retinoic acid signalling. Ablation of this receptor in mice leads to development of depressive-like behaviours - despair and anhedonia. Importantly, such deficits could be normalized by antidepressant, fluoxetine chronic treatment, suggesting thus the relevance of such data for research into depression. We identified that NAcSh is a key structure implicated in Rxry control of motivated behaviours as virus mediated re-expression of Rxry in this brain region normalized behavioural deficits of Rxry-/- mice. We demonstrated that dopaminergic D2 receptor – Drd2, which is underexpressed in the NAcSh of Rxry-/- mice is necessary for Rxry control of affective behaviours since blocking of Drd2 activities by infusion of raclopride into the NAcSh prevented AAV2-Rxry mediated rescue of Rxry-/- phenotype. This observation was further supported by functional rescue of behavioral deficits by virus mediated or chronic fluoxetine treatment increase of Drd2 expression in the NAcSh of Rxry-/- mice. Such data provide the first evidence that retinoid receptors are implicated in the control of affective behaviours in mice.We also identified that molecular changes caused by Rxry ablation lead to hyperactivity of the NAcSh. Importantly, we observed similar phenomenon in etiologically different model of depression – social defeat stress model. Existence of such correlation in two distinct animal models of depressive behaviours, suggests that NAcSh hyperactivity might be a common phenomenon underlying depression.

Récepteurs X aux rétinoïdes

Recepteurs dopaminergique D2

Depression

Noyau accumbens

Processus émotionnels

Retinoid X receptors

Dopaminergic D2 receptors

Depression

Nucleus accumbens

Emotional precesses

572.6

572.8

Regulace genové exprese jadernými receptory ve specifickém metabolickém kontextu - evoluční perspektiva / Gene expression regulation by nuclear receptors in a specific metabolic context - evolutionary perspective

Kaššák, Filip

January 2021

In animals, some of the most critical regulators of gene expression are nuclear hormone receptors (NRs) and their coregulators, specifically the Mediator complex. Of particular interest are the NRs implicated in metabolic and developmental regulation and in carcinogenesis: thyroid hormone receptors (TRs) and retinoid X receptors (RXRs). In this work, I venture to elucidate some aspects of gene expression regulation by these NRs: the degree of evolutionary conservation of signalling based on NRs and their coregulators; the mechanisms of negative regulation by NRs; and possible implications of these findings for clinical medicine. State-of-the-art bioinformatical, genome editing and microscopic techniques are applied at three levels of animal evolution to study NRs and Mediator. Reverse genomics in human patients suffering from the syndrome of resistance to thyroid hormones β are used to infer the structure and function of TRβ subdomains. Alignments, binding studies and in vivo experiments in Trichoplax adhaerens allow identification of a close orthologue of human RXR at the basis of metazoan evolution. Employing database queries, genome editing and microscopy, we describe a correct orthologue of the Mediator subunit 28 in Caenorhabditis elegans, indicating a complete homology of the Mediator complex...