Retinoid X receptor gamma signaling accelerates CNS remyelination

The molecular basis of CNS myelin regeneration (remyelination) is poorly understood. We generated a comprehensive transcriptional profile of the separate stages of spontaneous remyelination that follow focal demyelination in the rat CNS and found that transcripts that encode the retinoid acid receptor RXR-γ were differentially expressed during remyelination. Cells of the oligodendrocyte lineage expressed RXR-γ in rat tissues that were undergoing remyelination and in active and remyelinated multiple sclerosis lesions. Knockdown of RXR-γ by RNA interference or RXR-specific antagonists severely inhibited oligodendrocyte differentiation in culture. In mice that lacked RXR-γ, adult oligodendrocyte precursor cells efficiently repopulated lesions after demyelination, but showed delayed differentiation into mature oligodendrocytes. Administration of the RXR agonist 9-cis-retinoic acid to demyelinated cerebellar slice cultures and to aged rats after demyelination caused an increase in remyelinated axons. Our results indicate that RXR-γ is a positive regulator of endogenous oligodendrocyte precursor cell differentiation and remyelination and might be a pharmacological target for regenerative therapy in the CNS

Environmental estrogen exposure during fetal life: a time bomb for prostate cancer.

International audience

Lipid Homeostasis and Ligands for Liver X Receptors: Identification and Characterization.

International audienceScreening of bona fide ligands for nuclear receptors is a real tour de force as the identified molecules are supposed to be able to activate the targeted proteins in cell culture as well as in vivo. Indeed orphan nuclear receptors are putative pharmacologically targets for various diseases. It is thus necessary to have quick and reproductive systems that help in identifying new ligands, agonist or antagonist, before using them in vivo in animal models to check for secondary effects. Here, we describe the transient transfections (homologous and heterologous) used for the screening of ligands for liver X receptor alpha (LXRalpha, NR1H3) in HeLa cells

Lipids, LXRs and prostate cancer: are HDACs a new link?

International audienceLipids play a complex role in prostate cancer (PCa). Increased de novo synthesis of fatty acids and/or cholesterol is associated with the development of prostate tumors. Liver X Receptors (LXRs) are members of the nuclear receptor family that regulates intracellular lipid homeostasis. Targeting the transcriptional activity of LXRs has, therefore, been proposed as a mechanism for attenuating the progression of PCa. Histone Deacetylases (HDACs), however, have a negative effect on LXR activity. Therefore, HDAC inhibition reduces intracellular cholesterol levels and thereby decreases tumor cell proliferation. LXRs and HDAC inhibitors can, therefore, inhibit tumor proliferation. This review discusses the interacting roles of lipids, LXRs and HDACs in the development of PCa, where increased lipid levels enhance HDAC activity thereby altering LXR-dependent regulation of cellular lipid homeostasis. It provides a new paradigm for the treatment of prostate cancer, where LXRs are activated and HDACs repressed

Role of the liver X receptors in skin physiology: Putative pharmacological targets in human diseases.

International audienceLiver X receptors (LXRs) are members of the nuclear receptor superfamily that have been shown to regulate various physiological functions such as lipid metabolism and cholesterol homeostasis. Concordant reports have elicited the possibility to target them to cure many human diseases including arteriosclerosis, cancer, arthritis, and diabetes. The high relevance of modulating LXR activities to treat numerous skin diseases, mainly those with exacerbated inflammation processes, contrasts with the lack of approved therapeutic use. This review makes an assessment to sum up the findings regarding the physiological roles of LXRs in skin and help progress towards the therapeutic and safe management of their activities. It focuses on the possible pharmacological targeting of LXRs to cure or prevent selected skin diseases

Stress as an immunomodulator: liver X receptors maybe the answer.

International audienceStress is a reflex response, both psychological and physiological, of the body to a difficult situation that requires adaptation. Stress is at the intersection of the objective event and the subjective event. The physiological mechanisms involved in chronic stress are numerous and can contribute to a wide variety of disorders, in all systems including the immune system. Stress modifies the Th1/Th2 balance via the HPA axis and a set of immune mediators. This will make the body more vulnerable to external infections in a scientific way while others claim the opposite, stress could be considered immune stimulatory. The development of synthetic LXR ligands such as T0901317 and GW3965 as well as an understanding of the direct involvement of these receptors in the regulation of proopiomelanocortin (POMC) gene expression and indirectly by producing a variety of cytokines in a stressor response, will open in the near future new therapeutic methods against the undesirable effects of stress on the behavior of the immune system

Once and for all, LXRalpha and LXRbeta are gatekeepers of the endocrine system.

International audienceLiver X receptors (LXRs) alpha and beta are nuclear receptors whose transcriptional activity is regulated by oxysterols, the oxidized forms of cholesterol. Described in the late 1990s as lipid sensors, both LXRs regulate cholesterol and fatty acid homeostasis. Over the years, deep phenotypic analyses of mouse models deficient for LXRalpha and/or LXRbeta have pointed out various other physiological functions including glucose homeostasis, immunology, and neuroprotection. This review enlightens the "endocrine" functions of LXRs; they deeply impact plasma glucose directly and by modulating insulin signaling, renin-angiotensin-aldosterone axis, thyroid and pituitary hormone levels, and bone homeostasis. Besides, LXR signaling is also involved in adrenal physiology, steroid synthesis, and male and female reproduction. Hence, LXRs are definitely involved in the endocrine system and could thus be considered as endocrine receptors, even though oxysterols do not fully correspond to the definition of hormones. Finally, because they are ligand-regulated transcription factors, LXRs are potential pharmacological targets with promising beneficial metabolic effects

Biological properties of propolis extracts: Something new from an ancient product.

International audienceNatural products are an interesting source of new therapeutics, especially for cancer therapy as 70% of them have botany origin. Propolis, a resinous mixture that honey bees collect and transform from tree buds, sap flows, or other botanical sources, has been used by ethnobotany and traditional practitioners as early in Egypt as 3000 BCE. Enriched in flavonoids, phenol acids and terpene derivatives, propolis has been widely used for its antibacterial, antifungal and anti-inflammatory properties. Even though it is a challenge to standardize propolis composition, chemical analyses have pointed out interesting molecules that also present anti-oxidant and anti-proliferative properties that are of interest in the field of anti-cancer therapy. This review describes the various geographical origins and compositions of propolis, and analyzes how the main compounds of propolis could modulate cell signaling. A focus is made on the putative use of propolis in prostate cancer

Enolase is regulated by Liver X Receptors.

International audienceEnolase is a glycolytic enzyme known to inhibit cholesteryl ester hydrolases (CEHs). Cholesteryl ester loading of macrophages, as occurs during atherosclerosis, is accompanied by increased Enolase protein and activity. Here, we describe that J774 macrophages treated with LXR agonists exhibit reduced Enolase transcript and protein abundance. Moreover, we show that this reduction is further potentiated by activation of the LXR/RXR heterodimer with the RXR ligand 9-cis retinoic acid. Enolase levels are also reduced in vivo following activation of LXRs in the intestine, but not in the liver. This effect is lost in Lxralphabeta-/- mice. In aggregate, our study identified Enolase as a new target of LXRs in vivo, which may promote cholesterol mobilization for subsequent efflux