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A la suite des agonistes PPAR-α et PPAR-γ, les agonistes doubles PPAR-α / γ sont-ils des molécules d'avenir ?
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Year: 2010 Publisher: Bruxelles: UCL,

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The present work is dedicated to the possible therapeutic effects of the PPAR agonists. PPARs (Peroxisome Proliferating-Activated Receptor) are nuclear receptors. They are subdivided into 3 main isotypes: PPARα, PPARγ and PPARβ/δ. These receptors are activated by endogenous hydrophobic molecules such as fatty acids or exogenous hydrophobic molecules like fibrates. PPAR are key receptors in the metabolic syndrome. lndeed, their activation allows among others a reduction of the glycemia (PPARγ) and a reduction of the triglycerides (PPARα). Currently, various PPAR agonists drugs are marketed in Belgium: they are fibrates (PPARα) and glitazones (PPARγ). A new family of dual PPARα/y agonists, the glitazars, has been developed; this one could perhaps become a new treatment for type 2 diabetes. Some glitazars successfuNy passed the prechnical development phase (muraglitazar, tesaglitazar). Despite everything, the clinical development of these glitazars was stopped in 2006, flot because of Iack of effectiveness, but due to serious unforeseen adverse effects (myocardial infarctions, transient ischemic attacks, increase in serum creatinin). However, the researchers do not give up PPARs: indeed they are also involved in the mechanism of the inflammation or cancer. Moreover the 3Id isotype PPARβ/δ could have a central role in the metabolic syndrome and in some cancer. This work reviews of the state of the question Le présent travail est consacré aux effets thérapeutiques possibles des agonistes PPAR. Les PPAR (Peroxisome Proliferating-Activated Receptor) sont des récepteurs nucléaires. Ils se subdivisent en 3 isotypes principaux PPARαγ, PPARγ et PPARβ/δ. Ces récepteurs sont activés par des molécules hydrophobes endogènes comme les acides gras ou exogènes, comme les fibrates. Les PPAR sont des récepteurs clés dans le syndrome métabolique. En effet, leur activation permet notamment une diminution de la glycémie (PPARγ) et une diminution des triglycérides (PPARα). Actuellement, divers médicaments agonistes PPAR sont commercialisés en Belgique : il s’agit des fibrates (PPARα) et des glitazones (PPARγ). Une nouvelle famille de molécules double agonistes PPARa/γ, les glitazars a été développée ; celle-ci pouvait peut-être devenir un nouveau traitement pour le diabète de type 2. Certains glitazars ont passé avec succès la phase de développement préclinique (muraglitazar, tésaglitazar). Malgré tout, le développement clinique de ces glitazars a été stoppé en 2006, non pas par manque d’efficacité de ces molécules, mais à cause d’effets indésirables graves imprévus (infarctus du myocarde, attaques ischémiques transitoires, augmentation de la créatinine sérique). Cependant, les chercheurs n’abandonnent pas les PPAR. En effet, ceux-ci sont également impliqués dans le mécanisme de l’inflammation ou du cancer. De plus, le 3e isotype, PPARβ/δ pourrait avoir un rôle central dans le syndrome métabolique et dans certains cancers. Ce travail propose une revue de l’état de la question.


Book
Modulation nutritionnelle de l'obésité et du syndrome métabolique : approche expérimentale in vivo en vue de déterminer le rôle du PPAR alpha et des cellules de Kupffer
Authors: --- ---
Year: 2007 Publisher: Bruxelles: UCL. Faculté de pharmacie et des sciences biomédicales,

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Obesity prevalence is increasing in industrialized countries; it is considered as a major problem of public health, because it favours the appearance of dyslipidemia, steatosis, hypertension and insulin resistance . Abnormal accumulation of fat leads to the secretion of fatty acids and adipokines by adipocytes, which are implicated in the development of insulin resistance and other metabolic disturbances. A better comprehension of other molecular and cellular targets involved in obesity will help to understand how new therapeutic/nutritional approaches could be useful to counteract the progression of obesity-associated diseases.In this context two in vivo studies have been performed to analyze: -the involvement of the nuclear receptor PPAR-a. in the effects of oligofructose (OFS), a non digestible fibre fermented in the caeco-colon. PPAR-a. is widely implicated in food intake, lipid metabolism and glucose response. OFS has already shown numerous beneficial effects in various obesity models in rodents.-the contribution of Kupffer cells in the development of obesity and associated disorders. These hepatic macrophages seem to be implicated in hepatic deteriorations observed in obesity but their role is not yet completely understood.The first study consisted in giving a diet enriched in OFS to PPAR-a. knock-out mice (genetic model of obesity). 3 weeks of treatment with OFS led to a decrease in fasted glycemia and body weight gain but had no effect on lipid metabolism. We suggest that PPAR­ a expression might be necessaryfor OFS action on lipid homeostasis.In the second study a high-fat (HF) diet was administered to mice in order to induce obesity and diabetes. ln order to explore the role of Kupffer cells in this model, those cells were inhibited with gadolinium chloride (GdC13). After 4 weeks of treatment (HF diet versus control diet ± GdCIJ), GdCl3 inhibits Kupffer cells but causes an inflammatory state in the liver. However, it counteracts high-fat induced obesity and insulin-resistance. Indeed, it reduces body weight gain, the development of white adipose tissues and hepatic triglycerides steatosis. It also improves fasted glycemia and glucose response. Inhibition of Kupffer cel/s might decrease obesity and some associated metabolic disturbances, but its consequences on the overall and tissue specific immunity must be taken into account topropose those cells as a putative target in the control of metabolic syndrome. L'obésité, en augmentation constante dans les pays industrialisés, constitue aujourd'hui un problème majeur de santé publique. Elle favorise l 'apparition du syndrome métabolique (SM), caractérisé par de la dyslipidémie, de la stéatose, de l'hypertension et le développement du diabète de type 2. L'accumulation anormale de masse grasse va de pair avec la sécrétion d'acides gras et d'adipokines impliqués dans le développement de l'insulino-résistance et du SM. Mieux comprendre l 'implication de certaines cibles moléculaires et cellulaires dans l'accumulation de masse grasse et ses conséquences métaboliques permettra notamment de comprendre comment des approches thérapeutiques nouvelles (notamment des aliments fonctionnels) pourraient s'avérer utiles pour tenter d'enrayer l'évolution de ce fléau.Dans ce contexte, nous avons réalisé deux études in vivo afin de déterminer : -l'implication du récepteur nucléaire PPAR-o: dans les effets de l'oligofructose (OFS), un fructane non digestible fermenté dans le caeco-colon. PPAR-a est largement impliqué dans la prise alimentaire, le métabolisme lipidique et la réponse au glucose et l'OFS a déjà montré de nombreux effets bénéfiques dans divers modèles d'obésité chez les rongeurs.- le rôle des cellules de Kupffer dans le développement de l'obésité et des perturbations qui y sont associées. Ces macrophages hépatiques semblent impliqués dans les altérations hépatiques liées à l'obésité mais leur rôle n'est pas encore bien défini.La première étude consistait à administrer une diète enrichie en OFS à des souris invalidées pour le gène PPARo: (modèle d'obésité génétique). Trois semaines de traitement avec l'OFS ont permis de diminuer la glycémie à l'état nourri et le gain de poids corporel mais n'ont pas eu d'effet sur le métabolisme lipidique. Nous postulons que l'expression de PPARo: est peut­ être nécessaire à l'action de l'OFS sur ce dernier.Dans la deuxième étude, une diète « high-fat » (HF) a été administrée à des souris afin de les rendre obèses et diabétiques. Pour étudier le rôle des cellules de Kupffer dans ce modèle, nous avons inhibé celles-ci à l'aide de chlorure de gadolinium (GdCh). Après 4 semaines de traitement (diète HF versus diète contrôle ± GdCh), le GdCh inhibe bien les cellules de Kupffer mais provoque un état inflammatoire au niveau du foie. Cependant, il corrige l'obésité et l'insulino­ résistance induites par la diète HF : il diminue la prise de poids, le développement des tissus adipeux et le taux de triglycérides hépatiques et il améliore la glycémie à jeun et la réponse glycémique. L'inhibition des cellules de Kupffer semble donc positive d'un point de vue lllétabolique mais aurait un effet néfaste sur l 'état inflammatoire.

Keywords

Obesity --- PPAR alpha --- Kupffer Cells


Book
La rosiglitazone dans le traitement du diabète de type 2, controverse en Europe et aux USA : perspectives de développement d'agonsites PPAR-γ d'un autre type
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Year: 2012 Publisher: Bruxelles: UCL,

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Etude de l'expression de protéines antioxydantes (Peroxyredoxines, adiponectine, PPARγ) en cas de stress oxydatif, dans deux modèles : 1. cellules musculaires de l'oeil en cas d'ophtalmopathie thyroïdienne, 2. cellules musculaires squelettiques de souris obèses

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Thyroid associated ophthalmopathy (TAO) is an autoimmune disorder associated to Graves’disease. In chronic phase, it is characterised by fibrosis and novo adipogenesis, but the mechanism is not yet clear. In this work, we have observed an extended infiltration of mast cells in TAO extraocular muscles and they certainly play a key role in the development of fibrotic and adipose tissues.
Muscular cells themselves have been poorly analysed up to now and are generally considered as intact, although TAO, as all autoimmune disorders, certainly involves oxidative stress. Indeed, we have observed an increased number of cells whose nuclei were labelled with caspase-6, a marker of cell apoptosis. Concomitantly, in TAO cases, the cytoplasmic expression of peroxiredoxines (PRDX5, PRDX3), known as antioxidant proteins was increased. As shown by immunohistochemistry and RT-PCR, adiponectin level was also increased in TAO, adiponectin being located in the cytoplasm of the muscular cells and of endothelial cells. PPARγ known to stimulate adiponectin expression is also detected at high level in the nuclei of muscular cells in cases of TAO. The upregulation of adiponectin and PPARγ could be linked to the antioxidant properties of both proteins.
In conclusion, extraocular muscular cells do possess a protective system against oxidative stress in autoimmune TAO


Periodical
PPAR research
Author:
ISSN: 16874765 16874757 Publisher: New York, N.Y.

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Keywords

Peroxisomes --- Peroxisomal disorders --- Peroxisomal Disorders. --- Peroxysomes. --- Pathologie peroxysomale. --- Peroxisomal disorders. --- Peroxisomes. --- Metabolism. --- Molecular Biology. --- Peroxidosomes --- Peroxysoma --- Adrenoleukodystrophy, Autosomal Neonatal Form --- Adrenoleukodystrophy, Autosomal, Neonatal Form --- Hyperpipecolatemia --- Neonatal Adrenoleukodystrophy --- Peroxisomal Dysfunction, General --- Peroxisomal Dysfunction, Multiple --- Peroxisomal Dysfunction, Single --- Adrenoleukodystrophy, Neonatal --- Hyperpipecolic Acidemia --- Acidemia, Hyperpipecolic --- Acidemias, Hyperpipecolic --- Adrenoleukodystrophies, Neonatal --- Dysfunction, General Peroxisomal --- Dysfunction, Multiple Peroxisomal --- Dysfunction, Single Peroxisomal --- Dysfunctions, General Peroxisomal --- Dysfunctions, Multiple Peroxisomal --- Dysfunctions, Single Peroxisomal --- General Peroxisomal Dysfunction --- General Peroxisomal Dysfunctions --- Hyperpipecolic Acidemias --- Multiple Peroxisomal Dysfunction --- Multiple Peroxisomal Dysfunctions --- Neonatal Adrenoleukodystrophies --- Peroxisomal Disorder --- Peroxisomal Dysfunctions, General --- Peroxisomal Dysfunctions, Multiple --- Peroxisomal Dysfunctions, Single --- Single Peroxisomal Dysfunction --- Single Peroxisomal Dysfunctions --- Peroxisomal diseases --- Peroxysomal disorders --- Diseases --- Peroxisomal Disorders --- PPAR alpha --- PPAR-beta --- PPAR delta --- PPAR gamma --- peroxisome proliferator-activated receptors --- Microbodies --- Central nervous system --- Metabolism, Inborn errors of --- Pediatric neurology --- Human physiology --- Life Sciences --- Biology --- ppar alpha --- ppar-beta --- ppar delta --- ppar gamma --- Peroxysomes --- Pathologie peroxysomale --- Glycosomes --- Glycosome --- Microbody --- Peroxisome Proliferators


Book
Peripheral Regulators of Obesity
Authors: --- ---
Year: 2019 Publisher: Frontiers Media SA

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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact


Book
Peripheral Regulators of Obesity
Authors: --- ---
Year: 2019 Publisher: Frontiers Media SA

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Abstract

This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact


Book
Peripheral Regulators of Obesity
Authors: --- ---
Year: 2019 Publisher: Frontiers Media SA

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Abstract

This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact


Book
PPARs as Key Mediators of Metabolic and Inflammatory Regulation
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Year: 2022 Publisher: MDPI - Multidisciplinary Digital Publishing Institute

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Mounting evidence suggests a bidirectional relationship between metabolism and inflammation. Molecular crosstalk between these processes occurs at different levels with the participation of nuclear receptors, including peroxisome proliferator-activated receptors (PPARs). There are three PPAR isotypes, α, β/δ, and γ, which modulate metabolic and inflammatory pathways, making them key for the control of cellular, organ, and systemic processes. PPAR activity is governed by fatty acids and fatty acid derivatives, and by drugs used in clinics (glitazones and fibrates). The study of PPAR action, also modulated by post-translational modifications, has enabled extraordinary advances in the understanding of the multifaceted roles of these receptors in metabolism, energy homeostasis, and inflammation both in health and disease. This Special Issue of IJMS includes a broad range of basic and translational article, both original research and reviews, focused on the latest developments in the regulation of metabolic and/or inflammatory processes by PPARs in all organs and the microbiomes of different vertebrate species.

Keywords

Research & information: general --- Biology, life sciences --- Biochemistry --- nuclear receptor --- gene transcription --- inflammation --- molecular docking --- PPARβ/δ --- lung --- pulmonary artery --- GW0742 --- GSK3787 --- docking --- lipopolysaccharide (LPS) --- PPARγ ligand --- coumarin --- fluorescent ligand --- screening --- crystal structure --- PPAR --- atopic dermatitis --- psoriasis --- metabolic reprograming --- glucose --- fatty acids --- mycobacteria --- M. tuberculosis --- M. leprae --- PPARs --- lipid droplets --- metabolic alterations --- hepatic damage --- nuclear factors --- pharmacological targets --- AMPK --- GDF15 --- insulin resistance --- type 2 diabetes mellitus --- peroxisome proliferator-activated receptor gamma (PPARγ) --- real-time PCR --- ELISA --- immunohistochemistry --- signaling pathway --- PPAR gamma --- brain --- neural stem cells --- infection --- neuroinflammation --- HIV --- Zika --- cytomegalovirus --- neurogenesis --- microglia --- liver damage --- toll-like receptor 4 --- P2Y2 receptor --- metabolic syndrome --- resveratrol --- quercetin --- PPARα --- peroxisome --- β-oxidation --- PPRE --- ligand --- coregulator --- micronutrients --- PPARα knockout --- adipose tissue --- browning --- lipid metabolism --- depression --- PPARg --- neuropathology --- corticotropin releasing hormone --- norepinephrine --- subgenual prefrontal cortex --- amygdala --- nucleus accumbens --- common carotid artery occlusion --- electroretinography --- fibroblast growth factor 21 --- pemafibrate --- peroxisome proliferator-activated receptor alpha --- retinal ischemia --- skeletal muscle --- substrate metabolism --- nonalcoholic fatty liver disease (NAFLD) --- sex dimorphism --- lipidomics --- hepatic sex-biased gene expression --- PPARγ --- pulmonary arterial hypertension --- TGFβ --- vascular injury --- proliferation --- kidney fibrosis --- pattern-recognition receptors --- phagocytosis --- nitric oxide synthase --- fenofibrate --- oleoylethanolamide --- palmitoylethanolamide --- cancer --- immunity --- obesity --- diabetes --- miRNA --- DNA methylation --- histone modification --- peroxisome-proliferator-activated receptor --- fatty acid oxidation --- doping control --- regulatory T cells --- exercise --- nuclear receptors --- nutrigenomics --- energy homeostasis --- dairy animals --- non-alcoholic fatty liver disease (NAFLD) --- non-alcoholic steatohepatitis (NASH) --- peroxisome proliferator-activated receptors (PPAR) --- bezafibrate --- fenofibric acid --- peroxisome proliferator-activated receptor --- dual/pan agonist --- X-ray crystallography --- n/a


Book
PPARs as Key Mediators of Metabolic and Inflammatory Regulation
Authors: ---
Year: 2022 Publisher: MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

Mounting evidence suggests a bidirectional relationship between metabolism and inflammation. Molecular crosstalk between these processes occurs at different levels with the participation of nuclear receptors, including peroxisome proliferator-activated receptors (PPARs). There are three PPAR isotypes, α, β/δ, and γ, which modulate metabolic and inflammatory pathways, making them key for the control of cellular, organ, and systemic processes. PPAR activity is governed by fatty acids and fatty acid derivatives, and by drugs used in clinics (glitazones and fibrates). The study of PPAR action, also modulated by post-translational modifications, has enabled extraordinary advances in the understanding of the multifaceted roles of these receptors in metabolism, energy homeostasis, and inflammation both in health and disease. This Special Issue of IJMS includes a broad range of basic and translational article, both original research and reviews, focused on the latest developments in the regulation of metabolic and/or inflammatory processes by PPARs in all organs and the microbiomes of different vertebrate species.

Keywords

nuclear receptor --- gene transcription --- inflammation --- molecular docking --- PPARβ/δ --- lung --- pulmonary artery --- GW0742 --- GSK3787 --- docking --- lipopolysaccharide (LPS) --- PPARγ ligand --- coumarin --- fluorescent ligand --- screening --- crystal structure --- PPAR --- atopic dermatitis --- psoriasis --- metabolic reprograming --- glucose --- fatty acids --- mycobacteria --- M. tuberculosis --- M. leprae --- PPARs --- lipid droplets --- metabolic alterations --- hepatic damage --- nuclear factors --- pharmacological targets --- AMPK --- GDF15 --- insulin resistance --- type 2 diabetes mellitus --- peroxisome proliferator-activated receptor gamma (PPARγ) --- real-time PCR --- ELISA --- immunohistochemistry --- signaling pathway --- PPAR gamma --- brain --- neural stem cells --- infection --- neuroinflammation --- HIV --- Zika --- cytomegalovirus --- neurogenesis --- microglia --- liver damage --- toll-like receptor 4 --- P2Y2 receptor --- metabolic syndrome --- resveratrol --- quercetin --- PPARα --- peroxisome --- β-oxidation --- PPRE --- ligand --- coregulator --- micronutrients --- PPARα knockout --- adipose tissue --- browning --- lipid metabolism --- depression --- PPARg --- neuropathology --- corticotropin releasing hormone --- norepinephrine --- subgenual prefrontal cortex --- amygdala --- nucleus accumbens --- common carotid artery occlusion --- electroretinography --- fibroblast growth factor 21 --- pemafibrate --- peroxisome proliferator-activated receptor alpha --- retinal ischemia --- skeletal muscle --- substrate metabolism --- nonalcoholic fatty liver disease (NAFLD) --- sex dimorphism --- lipidomics --- hepatic sex-biased gene expression --- PPARγ --- pulmonary arterial hypertension --- TGFβ --- vascular injury --- proliferation --- kidney fibrosis --- pattern-recognition receptors --- phagocytosis --- nitric oxide synthase --- fenofibrate --- oleoylethanolamide --- palmitoylethanolamide --- cancer --- immunity --- obesity --- diabetes --- miRNA --- DNA methylation --- histone modification --- peroxisome-proliferator-activated receptor --- fatty acid oxidation --- doping control --- regulatory T cells --- exercise --- nuclear receptors --- nutrigenomics --- energy homeostasis --- dairy animals --- non-alcoholic fatty liver disease (NAFLD) --- non-alcoholic steatohepatitis (NASH) --- peroxisome proliferator-activated receptors (PPAR) --- bezafibrate --- fenofibric acid --- peroxisome proliferator-activated receptor --- dual/pan agonist --- X-ray crystallography --- n/a

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