Impacts métaboliques et thérapeutiques de la vitamine A, sous forme d’acide rétinoïque, dans l’obésité, la résistance à l’insuline et le diabète de type 2 chez la souris ob/ob = Metabolic and Therapeutic Impacts of Vitamin A as Retinoic Acid on Obesity, Insulin Resistance, and Type 2 Diabetes in ob/ob Mice

Manolescu, Daniel-Constantin

11 1900

No description available.

Acide rétinoïque

Vitamine A

Retinol Binding Protein RBP4

Résistance à l’insuline

Diabète

Adipocytes

Gras beige

Métabolisme énergétique

Peptides natriurétiques

Fibrose

Apoptose

Autophagie.

Retinoic acid

Vitamin A

Retinol Binding Protein RBP4

Insulin resistance

Diabetes

Adipocytes

Brown / Beige fat

Energy metabolism

Natriuretic peptides ANP / BNP

Fibrosis prevention

Apoptosis

Autophagy

La Canettose, une maladie infectieuse émergente dans la corne de l'Afrique / Canettosis, an emerging infectious disease in the Horn of Africa

Bouzid, Feriel

24 November 2017

La tuberculose est l’une des maladies infectieuses mortelles les plus fréquentes, causée par des mycobactéries tuberculeuses dont principalement M. tuberculosis. Notre thèse a porté sur Mycobacterium canettii caractérisée par un morphotype lisse et un temps de génération plus court que M. tuberculosis. Notre revue de la littérature a montré que moins d'une centaine de cas d’infection à M. canettii ont été rapportés majoritairement à Djibouti située dans la Corne de l’Afrique. Ensuite, notre étude prospective de la tuberculose pulmonaire à Djibouti a mesuré une prévalence d’infections à M. canettii de 4%. A travers un modèle murin d’infection par gavage, nous avons observé la translocation de M. canettii des intestins vers la circulation lymphatique et sanguine ; suivie par une dissémination principalement vers les poumons et les ganglions lymphatiques. Cette étude a alors démontré que M. canettii peut infecter les individus par voie orale et a révélé que M. canettii peut interagir avec le tissu adipeux brun. Ensuite, à travers des modèles cellulaires d’infection, nous avons montré que les pré-adipocytes bruns pourraient constituer une cible potentielle des mycobactéries tuberculeuses et que M. canettii ne persiste pas dans les adipocytes matures contrairement à M. tuberculosis. En conclusion, nous avons apporté des connaissances nouvelles sur l’infection à M. canettii : sa prévalence, son mode de transmission ainsi que de nouvelles pistes sur de possibles réservoirs environnementaux. L’ensemble de ces données suggèrent que l’infection à M. canettii doit être considérée comme une entité clinique distincte de la tuberculose que nous proposons de nommer « Canettose ». / Tuberculosis is one of the most frequent deadly infectious diseases worldwide, caused by tuberculous mycobacteria including mainly M. tuberculosis. Our thesis focused on Mycobacterium canettii characterized by a smooth morphotype and a shorter generation time than M. tuberculosis. Our review of the literature showed that less than one hundred cases of M. canettii infection have been reported in Djibouti situated in the Horn of Africa. Then, our prospective microbiological study of pulmonary tuberculosis in Djibouti measured a prevalence of M. canettii lung infections of 4%. Through a mouse model by gavage, we observed the translocation of M. canettii from the intestines to the lymphatic and blood circulation; followed by dissemination mainly to the lungs and lymph nodes. In conclusion, this study demonstrated that M. canettii can follow the digestive tract to infect individuals and revealed also that M. canettii can interact with brown adipose tissue. Then, through cell infection models, we have shown that brown pre-adipocytes may be a potential target for tuberculous mycobacteria and that M. does not persist in mature adipocytes contrary to M. tuberculosis. In conclusion, this work allowed to bring new knowledge about M. canettii infection: its prevalence, its mode of transmission as well as new avenues on possible environmental reservoirs. All of these data suggest that M. canettii infection should be considered as a distinct clinical entity from tuberculosis. We propose to name "Canettosis" the M. canettii infection.

Mycobacterium canettii

Bacilles tuberculeux lisses

Canettose

Mycobacterium tuberculosis

Tuberculose

Modèle murin

Infection

Tractus digestif

Aliments

Tissu adipeux

Adipocytes

Lipides

Mycobacterium canettii

Smooth tubercle bacilli

Canettosis

Mycobacterium tuberculosis

Tuberculosis

Murine model

Infection

Digestive tract

Food

Adipose tissue

Adipocytes

Lipids

The Effects of Serum from Obese Patients and Adipocyte-derived Cytokines on Growth of Prostate Cancer Cells In Vitro

Mora, Benjamin

03 July 2014

Obesity has been related to a greater incidence of more aggressive, advanced stage prostate cancer. It is expected that serum adipokines related to obesity will promote a more aggressive phenotype in PC cells in vitro. Patient serum (n = 80) was obtained for analysis and divided into four patient groups based on obesity and prostate cancer status. Characteristics of serum-treated PC cells in vitro were measured. In a separate set of analyses, LNCaP and PC3 cells were treated with adiponectin and resistin in vitro, and cell characteristics were analyzed. Serum from obese PC patients induces greater amounts of cell migration and lower amounts of cell proliferation and invasion in vitro. Exogenous treatment of adiponectin on PC cells in vitro does not affect cell migration or invasion. However, adiponectin modulates cytosolic protein levels of soluble β-catenin and GSK-3β, indicating that its mechanism of action may be through the Wnt signalling pathway.

oncology

urology

cancer

prostate

obesity

adipokines

prostate cancer

cytokines

adipocytes

adiponectin

resistin

fat cells

tumor

malignancy

neoplasm

body mass index

in vitro

wnt

proliferation

migration

invasion

LNCaP

PC3

overweight

fat

adiposity

beta-catenin

glycogen synthase kinase-3beta

0992

Regulation of lipid metabolism in adipocytes and hepatocytes by hexarelin through scavenger receptor CD36

Rodrigue-Way, Amélie

04 1900

Les sécrétines de l’hormone de croissance (GHRPs) sont de petits peptides synthétiques capables de stimuler la sécrétion de l’hormone de croissance à partir de l’hypophyse via leur liaison au récepteur de la ghréline GHS-R1a. Le GHRP hexaréline a été utilisé afin d’étudier la distribution tissulaire de GHS-R1a et son effet GH-indépendant. Ainsi, par cette approche, il a été déterminé que l’hexaréline était capable de se lier à un deuxième récepteur identifié comme étant le récepteur scavenger CD36. Ce récepteur possède une multitude de ligands dont les particules oxLDL et les acides gras à longue chaîne. CD36 est généralement reconnu pour son rôle dans l’athérogénèse et sa contribution à la formation de cellules spumeuses suite à l’internalisation des oxLDL dans les macrophages/monocytes. Auparavant, nous avions démontré que le traitement des macrophages avec l’hexaréline menait à l’activation de PPARƔ via sa liaison à GHS-R1a, mais aussi à CD36. De plus, une cascade d’activation impliquant LXRα et les transporteurs ABC provoquait également une augmentation de l’efflux du cholestérol. Une stimulation de la voie du transport inverse du cholestérol vers les particules HDL entraînait donc une diminution de l’engorgement des macrophages de lipides et la formation de cellules spumeuses. Puisque CD36 est exprimé dans de multiples tissus et qu’il est également responsable du captage des acides gras à longue chaîne, nous avons voulu étudier l’impact de l’hexaréline uniquement à travers sa liaison à CD36. Dans le but d’approfondir nos connaissances sur la régulation du métabolisme des lipides par CD36, nous avons choisi des types cellulaires jouant un rôle important dans l’homéostasie lipidique n’exprimant pas GHS-R1a, soient les adipocytes et les hépatocytes. L’ensemble de mes travaux démontre qu’en réponse à son interaction avec l’hexaréline, CD36 a le potentiel de réduire le contenu lipidique des adipocytes et des hépatocytes. Dans les cellules adipeuses, l'hexaréline augmente l’expression de plusieurs gènes impliqués dans la mobilisation et l’oxydation des acides gras, et induit également l’expression des marqueurs thermogéniques PGC-1α et UCP-1. De même, hexaréline augmente l’expression des gènes impliqués dans la biogenèse mitochondriale, un effet accompagné de changements morphologiques des mitochondries; des caractéristiques observées dans les types cellulaires ayant une grande capacité oxydative. Ces résultats démontrent que les adipocytes blancs traités avec hexaréline ont la capacité de se transformer en un phénotype similaire aux adipocytes bruns ayant l’habileté de brûler les acides gras plutôt que de les emmagasiner. Cet effet est également observé dans les tissus adipeux de souris et est dépendant de la présence de CD36. Dans les hépatocytes, nous avons démontré le potentiel de CD36 à moduler le métabolisme du cholestérol. En réponse au traitement des cellules avec hexaréline, une phosphorylation rapide de LKB1 et de l’AMPK est suivie d’une phosphorylation inhibitrice de l’HMG-CoA réductase (HMGR), l’enzyme clé dans la synthèse du cholestérol. De plus, la liaison d'hexaréline à CD36 provoque le recrutement d’insig-2 à HMGR, l’étape d’engagement dans sa dégradation. La dégradation de HMGR par hexaréline semble être dépendante de l’activité de PPARƔ et de l’AMPK. Dans le but d’élucider le mécanisme d’activation par hexaréline, nous avons démontré d’une part que sa liaison à CD36 provoque une déphosphorylation de Erk soulevant ainsi l’inhibition que celui-ci exerce sur PPARƔ et d’autre part, un recrutement de l’AMPK à PGC-1α expliquant ainsi une partie du mécanisme d’activation de PPARƔ par hexaréline. Les résultats générés dans cette thèse ont permis d’élucider de nouveaux mécanismes d’action de CD36 et d'approfondir nos connaissances de son influence dans la régulation du métabolisme des lipides. / Growth hormone releasing peptides (GHRPs) are small synthetic peptides aimed at stimulating GH release from the pituitary through their binding to ghrelin receptor known as growth hormone secretagogue receptor 1a (GHS-R1a). Using the GHRP, hexarelin to study tissue distribution of GHS-R1a and its GH-independent effect, it was observed that hexarelin was capable of binding to a second receptor identified as scavenger receptor CD36. While having multiple ligands, CD36 is mainly known for binding and internalizing oxLDL and long chain fatty acids. CD36 is thought to play a detrimental role in macrophage derived foam cell formation and development of atherosclerosis. Previously, we have shown that in macrophages, expressing both GHS-R1a and CD36, hexarelin promoted an activation of PPARƔ via GHS-R1a but also through its binding to CD36. This activation led to the induction of the LXRα-ABC transporters pathway and an increase in cholesterol efflux, reducing lipid-laden macrophage content. This positive effect on macrophages was reproduced in apolipoprotein E-null mice on a high fat diet treated with hexarelin. A significant reduction in the size of atherosclerotic lesions was observed while similar increases in the expression of PPARƔ, LXRα and ABC transporters occurred in isolated peritoneal macrophages. CD36 also plays a role in fatty acid uptake, and to further investigate the impact of the interaction of hexarelin with CD36, we aimed at evaluating the role of CD36 in regulating lipid metabolism in cells devoid of GHS-R1a such as adipocytes and hepatocytes. In the present thesis, we demonstrated through its interaction with hexarelin, the ability of CD36 to decrease intracellular lipid content in both adipocytes and hepatocytes. In adipocytes, hexarelin was able to increase the expression of several genes involved in fatty acid mobilization, fatty acid oxidation but also to induce the expression of the thermogenic markers, PGC-1α and UCP-1. In addition, hexarelin increased the expression of genes involved in mitochondrial biogenesis which was accompanied by mitochondrial morphological changes in agreement with what is usually seen in highly oxidative cells. In support of these findings, we also observed an increase in the activity of cytochrome c oxidase (a component of the respiratory chain) which could reflect an increase in oxidative phosphorylation. The results generated with cultured white adipocytes suggest the ability of hexarelin to promote changes toward a brown fat-like phenotype which also occurred in vivo and was dependent on the presence of CD36. In hepatocytes, CD36 was capable of regulating cholesterol metabolism by rapidly phosphorylating LKB1 and AMPK which subsequently resulted in the inactivating phosphorylation of HMG-CoA reductase, the rate-limiting enzyme in cholesterol synthesis. Hexarelin via CD36 also induced the recruitment of insig-2 to HMGR, the committed step in HMGR degradation while lifting the exerted inhibitory effect of Erk on nuclear receptor PPARƔ activity, and promoting the recruitment of AMPK to PPARƔ coactivator PGC-1α, suggesting an enhanced transcriptional potential of PPARƔ. The results generated during my graduate studies represent unique and novel mechanisms by which CD36 is capable of regulating lipid metabolism.

CD36

Hexarelin

PPARgamma

PGC-1alpha

Mitochondrial biogenesis

UCP-1

Fatty acid oxidation

AMPK

HMG-CoA Reductase

Insig-2

Hexaréline

Biogenèse mitochondriale

Oxydation des acides gras

Erk

Adipocytes

Hépatocytes

LKB1

Untersuchung zur quantitativen Genexpression in Primärkulturen humaner Adipocyten am Beispiel ausgewählter Gene des Renin-Angiotensin-Systems

Gorzelniak, Kerstin

11 April 2002

Wie sich in den letzten Jahren gezeigt hat, ist Fettgewebe nicht nur ein inerter Fettspeicher, sondern produziert auch eine Vielzahl endokrin wirksamer Substanzen, die unter anderem auch an der Blutdruckregulation beteiligt sind. Da Adipositas ein wichtiger Risikofaktor für die Entwicklung der Hypertonie ist, sollte im Rahmen dieser Dissertation ein System zur quantitativen Untersuchung der Genexpression in Primärkulturen humaner Adipocyten entwickelt werden und dessen Funktionalität am Beispiel der hormonellen Regulation der Gene des Renin-Angiotensin-Systems demonstriert werden. Dies beinhaltete die Etablierung der Adipocytenisolierung und -kultivierung, eines Stimulationsassays, die Entwicklung einer der besonderen Größe und dem hohen Fettgehalt der Zellen angepaßten Zellzahl- und Vitalitätsbestimmungsmethode, die Untersuchung vier verschiedener RNA-Extraktionsmethoden auf ihre Eignung für Adipocyten und die Etablierung eines besonders sensitiven RT-PCR Systems zur Untersuchung der Genexpression mittels einer fluoreszenzmarkierten Sonde. Exemplarisch konnte anhand der Renin-Angiotensin-System-Gene die Funktionalität der Methoden demonstriert werden, indem nicht nur die Genexpression aller Komponenten des Renin-Angiotensin-Systems in humanen Adipocyten nachgewiesen wurden, sondern auch gezeigt werden konnte, dass Hydrocortison sowohl die Genexpression als auch die Dichte des Angiotensin II Typ 1-Rezeptors in der Adipocytenmembran stimuliert. Dieser Aspekt könnte möglicherweise nicht nur bei der besonderen Adipositasform des Cushing-Syndroms, sondern auch für die Entstehung der zentralen Adipositas von Bedeutung sein. / Adipose tissue has functions above-and-beyond storing fat. It also produces a variety of different endocrine substances, some of which influence blood pressure regulation. Obesity is a well known risk factor for the development of hypertension Thus, the genes regulating expression of vasoactive molecules in adipose tissue, possibly contributing to an increase in blood pressure are of great interest. The aim of this work was to develope a system for quantitative gene expression analysis in primary cultured human adipocytes and to demonstrate its utility for studying the hormonal regulation of genes encoding the renin-angiotensin-system. We established procedures for the isolation and culture of human adipocytes, as well as a stimulatory assay. We also developed methods for the determination of cell number and vitality. Above this, four RNA extraction protocols were evaluated regarding their suitability for adipocytes, and a very sensitive RT-PCR system for gene expression analysis using fluorescent labeled probes was established. As an example for the functionality of these methods we showed that all genes of the renin-angiotensin-system are expressed in human adipocytes. We also demonstrated that hydrocortisone stimulates the gene expression as well as the density of the angiotensin II receptor type 1 on cultured human adipocytes. This finding may be of interest for the development of the obesity phenotype found in cushing syndrome, but could also contribute to the development of central obesity.

Adipocyten

quantitative RT-PCR

endogene Kontrollen

Renin-Angiotensin-System

AT-1 Rezeptor Expression

adipocytes

quatitativ RT-PCR

endogenous controls

renin-angiotensin-system

AT-1 receptor expression

610 Medizin

33 Medizin

YC 1400

ddc:610

3D micropatternable hydrogel systems to examine crosstalk effects between mesenchymal stem cells, osteoblasts, and adipocytes

Hammoudi, Taymour Marwan

15 November 2012

Poor skeletal health results from aging and metabolic diseases such as obesity and diabetes and involves impaired homeostatic balance between marrow osteogenesis and adipogenesis. Tissue engineering provides researchers with the ability to generate improved, highly controlled and tailorable in vitro model systems to better understand mechanisms of homeostasis, disease, and healing and regeneration. Model systems that allow assembly of modules of MSCs, osteoblasts, and adipocytes in a number of configurations to engage in signaling crosstalk offer the potential to study integrative physiological aspects and complex interactions in the face of changes in local and systemic microenvironments. Thus, the overall goal of this dissertation was to examine integrative physiological aspects between MSCs, osteoblasts, and adipocytes that exist within the marrow microenvironment. To investigate the effects of intercellular signaling in different microenvironmental contexts, methods were developed to photolithographically pattern and assemble cell-laden PEG-based hydrogels with high spatial fidelity and tissue-scale thickness for long-term 3D co-culture of multiple cell types. This platform was applied to study effects of crosstalk between MSCs, osteoblasts and adipocytes on markers of differentiation in each cell type. Additionally, responses of MSCs to systemic perturbations in glucose concentration were modulated by mono-, co-, and tri-culture with these cell types in a model of diabetes-induced skeletal disease. Together, these studies provided valuable insight into unique and differential effects of intercellular signaling within the niche environment of MSCs and their terminally differentiated progeny during homeostatic and pathological states, and offer opportunities further study of integrative physiological interactions between mesenchymal lineage cells.

Biomaterials

Hydrogels

Tissue engineering

Model systems

Systems biology

Multivariate analysis

Stem cells

Mesenchymal stem cells

Photolithography

Tri-culture

Micropatterning

Three-dimensional

Co-culture

Adipocytes

Osteoblasts

Regenerative medicine

Biomedical engineering

Mesenchymal stem cells Differentiation

Connective tissues

Differential sensing of hydrophobic analytes with serum albumins

Ivy, Michelle Adams

14 November 2013

In the last decade, there has been a growing interest in the use of differential sensing for molecular recognition. Inspired by the mammalian olfactory system, differential sensing employs an array of non-selective receptors, which through cross-reactive interactions, create a distinct pattern for each analyte tested. The unique fingerprints obtained for each analyte with differential sensing are studied with statistical analysis techniques, such as principal component analysis and linear discriminant analysis. It was postulated that serum albumin proteins would be applicable to differential sensing schemes due to significant differences in sequence identity between different serum albumin species, and due to the wide range of hydrophobic molecules which are known to bind to these proteins. Consequently, cross-reactive serum albumin arrays were developed, utilizing hydrophobic fluorescent indicators to detect hydrophobic molecules. As such, serum albumin cross-reactive arrays were employed to discriminate subtly different hydrophobic analytes, and mixtures of these analytes, in the form of terpenes and perfumes, plasticizers and plastic explosive mixtures, and glycerides and adipocyte extracts. In this doctoral work, a detailed review of the field of differential sensing, and a thorough study of principal component analysis and linear discriminant analysis in various differential sensing scenarios, are given. These introductory chapters aid in better understanding the methods and techniques applied in later experimental chapters. In chapter 3, serum albumins, a PRODAN indicator, and an additive are shown to discriminate five terpene analytes and terpene doped perfumes. Chapter 4 describes an array with serum albumins, two dansyl fluorophores, and an additive which successfully differentiate the plasticizers found within the plastic explosives C4 and Semtex and simulated C4 and Semtex mixtures. Discrimination of these simulated mixtures was also achieved with this array in the presence of soil contaminants, demonstrating the potential real-world applicability of this sensing ensemble. Finally, chapter 5 details an array consisting of serum albumins, several fluorescent indicators, and a Grubb's olefin metathesis reaction, to differentiate saturated and unsaturated triglycerides, diglycerides, and monoglycerides. Mixtures of glycerides in adipocyte extracts taken from rats with different health states were then successfully discriminated, showing promise for clinical applications in differentiating adipoctyes from pre-diabetic, type 2 diabetic, and non-diabetic individuals. / text

Differential sensing

Array sensing

Multivariate analysis

Linear discriminant analysis

Principal component analysis

Serum albumin

Hydrophobic analytes

Terpenes

Perfumes

Plasticizers

Plastic explosives

C4

Semtex

Glycerides

Triglycerides

Diglycerides

Monoglycerides

Adipocytes

Lipolysis

Olefin metathesis

Regulation of lipid metabolism in adipocytes and hepatocytes by hexarelin through scavenger receptor CD36

Rodrigue-Way, Amélie

04 1900

Les sécrétines de l’hormone de croissance (GHRPs) sont de petits peptides synthétiques capables de stimuler la sécrétion de l’hormone de croissance à partir de l’hypophyse via leur liaison au récepteur de la ghréline GHS-R1a. Le GHRP hexaréline a été utilisé afin d’étudier la distribution tissulaire de GHS-R1a et son effet GH-indépendant. Ainsi, par cette approche, il a été déterminé que l’hexaréline était capable de se lier à un deuxième récepteur identifié comme étant le récepteur scavenger CD36. Ce récepteur possède une multitude de ligands dont les particules oxLDL et les acides gras à longue chaîne. CD36 est généralement reconnu pour son rôle dans l’athérogénèse et sa contribution à la formation de cellules spumeuses suite à l’internalisation des oxLDL dans les macrophages/monocytes. Auparavant, nous avions démontré que le traitement des macrophages avec l’hexaréline menait à l’activation de PPARƔ via sa liaison à GHS-R1a, mais aussi à CD36. De plus, une cascade d’activation impliquant LXRα et les transporteurs ABC provoquait également une augmentation de l’efflux du cholestérol. Une stimulation de la voie du transport inverse du cholestérol vers les particules HDL entraînait donc une diminution de l’engorgement des macrophages de lipides et la formation de cellules spumeuses. Puisque CD36 est exprimé dans de multiples tissus et qu’il est également responsable du captage des acides gras à longue chaîne, nous avons voulu étudier l’impact de l’hexaréline uniquement à travers sa liaison à CD36. Dans le but d’approfondir nos connaissances sur la régulation du métabolisme des lipides par CD36, nous avons choisi des types cellulaires jouant un rôle important dans l’homéostasie lipidique n’exprimant pas GHS-R1a, soient les adipocytes et les hépatocytes. L’ensemble de mes travaux démontre qu’en réponse à son interaction avec l’hexaréline, CD36 a le potentiel de réduire le contenu lipidique des adipocytes et des hépatocytes. Dans les cellules adipeuses, l'hexaréline augmente l’expression de plusieurs gènes impliqués dans la mobilisation et l’oxydation des acides gras, et induit également l’expression des marqueurs thermogéniques PGC-1α et UCP-1. De même, hexaréline augmente l’expression des gènes impliqués dans la biogenèse mitochondriale, un effet accompagné de changements morphologiques des mitochondries; des caractéristiques observées dans les types cellulaires ayant une grande capacité oxydative. Ces résultats démontrent que les adipocytes blancs traités avec hexaréline ont la capacité de se transformer en un phénotype similaire aux adipocytes bruns ayant l’habileté de brûler les acides gras plutôt que de les emmagasiner. Cet effet est également observé dans les tissus adipeux de souris et est dépendant de la présence de CD36. Dans les hépatocytes, nous avons démontré le potentiel de CD36 à moduler le métabolisme du cholestérol. En réponse au traitement des cellules avec hexaréline, une phosphorylation rapide de LKB1 et de l’AMPK est suivie d’une phosphorylation inhibitrice de l’HMG-CoA réductase (HMGR), l’enzyme clé dans la synthèse du cholestérol. De plus, la liaison d'hexaréline à CD36 provoque le recrutement d’insig-2 à HMGR, l’étape d’engagement dans sa dégradation. La dégradation de HMGR par hexaréline semble être dépendante de l’activité de PPARƔ et de l’AMPK. Dans le but d’élucider le mécanisme d’activation par hexaréline, nous avons démontré d’une part que sa liaison à CD36 provoque une déphosphorylation de Erk soulevant ainsi l’inhibition que celui-ci exerce sur PPARƔ et d’autre part, un recrutement de l’AMPK à PGC-1α expliquant ainsi une partie du mécanisme d’activation de PPARƔ par hexaréline. Les résultats générés dans cette thèse ont permis d’élucider de nouveaux mécanismes d’action de CD36 et d'approfondir nos connaissances de son influence dans la régulation du métabolisme des lipides. / Growth hormone releasing peptides (GHRPs) are small synthetic peptides aimed at stimulating GH release from the pituitary through their binding to ghrelin receptor known as growth hormone secretagogue receptor 1a (GHS-R1a). Using the GHRP, hexarelin to study tissue distribution of GHS-R1a and its GH-independent effect, it was observed that hexarelin was capable of binding to a second receptor identified as scavenger receptor CD36. While having multiple ligands, CD36 is mainly known for binding and internalizing oxLDL and long chain fatty acids. CD36 is thought to play a detrimental role in macrophage derived foam cell formation and development of atherosclerosis. Previously, we have shown that in macrophages, expressing both GHS-R1a and CD36, hexarelin promoted an activation of PPARƔ via GHS-R1a but also through its binding to CD36. This activation led to the induction of the LXRα-ABC transporters pathway and an increase in cholesterol efflux, reducing lipid-laden macrophage content. This positive effect on macrophages was reproduced in apolipoprotein E-null mice on a high fat diet treated with hexarelin. A significant reduction in the size of atherosclerotic lesions was observed while similar increases in the expression of PPARƔ, LXRα and ABC transporters occurred in isolated peritoneal macrophages. CD36 also plays a role in fatty acid uptake, and to further investigate the impact of the interaction of hexarelin with CD36, we aimed at evaluating the role of CD36 in regulating lipid metabolism in cells devoid of GHS-R1a such as adipocytes and hepatocytes. In the present thesis, we demonstrated through its interaction with hexarelin, the ability of CD36 to decrease intracellular lipid content in both adipocytes and hepatocytes. In adipocytes, hexarelin was able to increase the expression of several genes involved in fatty acid mobilization, fatty acid oxidation but also to induce the expression of the thermogenic markers, PGC-1α and UCP-1. In addition, hexarelin increased the expression of genes involved in mitochondrial biogenesis which was accompanied by mitochondrial morphological changes in agreement with what is usually seen in highly oxidative cells. In support of these findings, we also observed an increase in the activity of cytochrome c oxidase (a component of the respiratory chain) which could reflect an increase in oxidative phosphorylation. The results generated with cultured white adipocytes suggest the ability of hexarelin to promote changes toward a brown fat-like phenotype which also occurred in vivo and was dependent on the presence of CD36. In hepatocytes, CD36 was capable of regulating cholesterol metabolism by rapidly phosphorylating LKB1 and AMPK which subsequently resulted in the inactivating phosphorylation of HMG-CoA reductase, the rate-limiting enzyme in cholesterol synthesis. Hexarelin via CD36 also induced the recruitment of insig-2 to HMGR, the committed step in HMGR degradation while lifting the exerted inhibitory effect of Erk on nuclear receptor PPARƔ activity, and promoting the recruitment of AMPK to PPARƔ coactivator PGC-1α, suggesting an enhanced transcriptional potential of PPARƔ. The results generated during my graduate studies represent unique and novel mechanisms by which CD36 is capable of regulating lipid metabolism.

CD36

Hexarelin

PPARgamma

PGC-1alpha

Mitochondrial biogenesis

UCP-1

Fatty acid oxidation

AMPK

HMG-CoA Reductase

Insig-2

Hexaréline

Biogenèse mitochondriale

Oxydation des acides gras

Erk

Adipocytes

Hépatocytes

LKB1

Regulation and Function of Stress-Activated Protein Kinase Signal Transduction Pathways: A Dissertation

Brancho, Deborah Marie

14 January 2005

The c-Jun NH2-terminal kinase (JNK) group and the p38 group of mitogen-activated protein kinases (MAPK) are stress-activated protein kinases that regulate cell proliferation, differentiation, development, and apoptosis. These protein kinases are involved in a signal transduction cascade that includes a MAP kinase (MAPK), a MAP kinase kinase (MAP2K), and a MAP kinase kinase kinase (MAP3K). MAPK are phosphorylated and activated by the MAP2K, which are phosphorylated and activated by various MAP3K. The work presented in this dissertation focuses on understanding the regulation and function of the JNK and p38 MAPK pathways. Two different strategies were utilized. First, I used molecular and biochemical techniques to examine how MAP2K and MAP3K mediate signaling specificity and to define their role in the MAPK pathway. Second, I used gene targeted disruption studies to determine the in vivo role ofMAP2K and MAP3K in MAPK activation. I specifically used these approaches to examine: (1) docking interactions between p38 MAPK and MAP2K [MKK3 and MKK6 (Chapter II)]; (2) the differential activation of p38 MAPK by MAP2K [MKK3, MKK4, and MKK6 (Chapter III)]; and (3) the selective involvement of the mixed lineage kinase (MLK) group of MAP3K in JNK and p38 MAPK activation (Chapter IV and Appendix). In addition, I analyzed the role of the MKK3 and MKK6 MAP2K in cell proliferation and the role of the MLK MAP3K in adipocyte differentiation (Chapter III and Chapter IV). Together, these data provide insight into the regulation and function of the stress-activated MAPK signal transduction pathways.

p38 Mitogen-Activated Protein Kinases

JNK Mitogen-Activated Protein Kinases

Mitogen-Activated Protein Kinase Kinases

MAP Kinase Signaling System

Cell Differentiation

Adipocytes

Amino Acids, Peptides, and Proteins

Cells

Enzymes and Coenzymes

Farmakologické modifikace potenciálních signálních systémů regulujících metabolismus adipocytů a hepatocytů a jejich vliv na obezitu / Pharmacological modifications of potential signal systems regulating metabolism of adipocytes and hepatocytes and their influence on obesity

Hodis, Jiří

January 2011

v anglickém jazyce: Thesis abstract: Background and aims: Both obesity and metabolic syndrome form severe health problems in the whole world. Nevertheless the armament of pharmacotherapy for both diseases remains unsatisfactory. We aimed our work to main organs in risk of the mentioned diseases -liver and visceral fat using hepatocytes and visceral adipocytes as model. We detected 3 main metabolic and signalization activities- glycogenolysis, Nitric oxide (NO) production and transcription of inducible NO synthase (iNOS) in hepatocytes, lipolysis, NO production and iNOS transcription rate in adipocytes. We directed our interest to combination of peroxisome proliferation activator receptor γ (PPARγ) agonist, antagonist and β3 adrenergic agonist in the culture of epididymal rat adipocytes in the first part of our work. While in the second part we investigated the influence of β and α adrenergic mimetics, adrenergic blockers in the culture of rat high glycogen content hepatocytes. Methods: NO production was detected under the active agents treatments by detection of NO oxidative products NO2 and NO3 in media. Glycogenolysis was measured as free glucose rise released by hepatocytes into the media. NOS transcription level was extrapolated after comparative polymerase chain reaction with reverse...