Inflamação e alteração metabólica na caquexia: papel dos adipócitos, do fígado e da modulação oferecida pela microbiota intestinal. / Cancer cachexia inflammation and metabolic: contribution of adipocyte, of the liver and modulation by intestinal microbiota.

Rodrigo Xavier das Neves

10 June 2016

Objetivo do estudo foi estudar a participação dos adipócitos e do fígado na inflamação e o papel da microbiota ao longo da progressão da caquexia. Para verificar o comportamento dos adipócitos e do fígado utilizamos ratos Wistar macho de 8 semanas, divididos em dois grupos: i) controle; ii) tumor. Este último foi subdividido em 2 grupos: a) 7º. e b) 14º. dia após a inoculação das células tumorais. Para avaliar o comportamento da microbiota durante o quadro de caquexia utilizamos camundongos C57Bl/6 convencional e germ free de 8-10 semanas, divididos em quatro grupos: i) Convencional controle; ii) Germ Free controle; iii) Convencional tumor; iv) Germ Free tumor. A célula tumoral usada para esse modelo foi Lewis Lung Carcinoma. Adipócitos isolados dos TAB, mesentérico, mais o fígado, mostraram que a via do inflamassoma esta ativa na fase terminal da caquexia. No modelo Germ Free, observamos que a caquexia apresenta-se é acelerada no tecido adiposo epididimal comparado aos camundongos convencionais tumor. Em conclusão, os adipócitos e o fígado desempenha papel importante no estabelecimento da inflamação, enquanto que a simbiose da microbiota parece ser essencial para combater a redução do tecido adiposo. / The goal of this study the role of adipocytes and liver inflammation and the role of microbiota along the progression of cachexia. The main aspects evaluated were increased of the inflammation, alteration in both pathways NF-kB and the inflammasome, and importance of the microbiota during progression of cachexia. To verify the behavior of adipocytes and liver I used Eight weeks-old male rats, I divided into two main groups: i) control; ii) tumor. The latter was divided into 2 groups: a) 7º. and b) 14º. day after tumor cell. To assess the microbial behavior during the development of cachexia I used C57BL/6 conventional mice and Germ Free 8-10 weeks, they were divided into four groups: i) Conventional control; ii) Germ Free control; iii) Conventional tumor; iv) Germ Free tumor. The tumor cell used in this model was Lewis Lung Carcinoma. Adipocytes isolated from TAB, mesenteric further the liver, showed that the inflammasome pathway is active in the terminal phase of cachexia. In model of Germ free mice we observed that cachexia is accelerated in epididymal adipose tissue compared to conventional tumor. In conclusion, adipocytes and liver seem to play a relevant role in the establishment of inflammation, while the microbial symbiosis seems to be essential for combating the reduction of adipose tissue.

Caquexia

Inflamação

Inflamassoma

Microbiota

Tecido adiposo branco

Cachexia

Inflammasome

Inflammation

Microbiota

White adipose tissue

Efeitos do treinamento de força e da suplementação de tributirina sobre os parâmetros da caquexia em ratos inoculados com tumor de Walker 256. / Effects of resistance exercise and tributyrin supplementation upon cachexia parameters in mouse with Walker 256 tumour.

Felipe Fedrizzi Donatto

12 February 2014

A caquexia é um síndrome para neoplástica que interfere na morfologia e fisiologia do tecido adiposo. O objetivo do presente estudo foi avaliar os efeitos do treinamento de força e da suplementação de tributirina sobre os parâmetros da caquexia em animais inoculados com células do tumor de Walker 256. Ratos Wistar (n=7) foram randomizados em grupos experimentais: Controle (CT), Tumor (TB), Tumor tratado com tributirina (TBTrib), Treinado com Tumor (TFTB) e Tumor Treinado e suplementado com tributirina (TFTBTrib). Os parâmetros: peso tumoral, peso total carregado, quantidades de glicogênio, perfil plasmático, quantidades de citocinas, histologia do tecido adiposo foram analisados. Os grupos TBTrib e TFTBTrib tiveram menores quantidades de massa tumoral quando comparado com o grupo TB. O glicogênio muscular de TFTB e TFTBTrib estavam 37% e 35% maiores comparados com TB. As proteínas musculares aumentaram 48% e 50% para os grupos TFTB e TFTBTrib, sendo diferentes comparados com os grupos CT e TB. Se observou melhor balanço de IL-10/TNF-a nos grupos TFTB e TFTBTrib, sendo que a secção transversa diminuiu nos grupos TB e TBTrib. Se propõe que o treinamento de força e a suplementação de tributirina podem ser usados em trabalhos futuros com humanos. / Cachexia is a syndrome to neoplastic interfering in the morphology and physiology of adipose tissue. The aim of this study was to evaluate the effects of strength training and supplementation of tributyrin on the parameters of cachexia in animals inoculated with tumor cells of Walker 256 . Wistar rats (n = 7) were randomized into experimental groups : control (CT) , tumor (TB) , tumor treated with tributyrin (TBTrib) Trained with Tumor (TFTB) and Tumor Trained and supplemented with tributyrin (TFTBTrib). The parameters : tumor weight , total weight loaded amounts of glycogen , plasma levels , amounts of cytokines, histology of adipose tissue were analized. The TBTrib and TFTBTrib groups have smaller amounts of tumor mass compared to TB group. Muscle glycogen and TFTB TFTBTrib were 37% and 35% when compared to BD. The muscle proteins were 48% and 50%, respectively for TFTB and TFTBTrib groups being different when compared with TB and TC groups. Better balance was observed in groups IL-10/TNF-a TFTB and TFTBTrib , and the cross-section decreased in the groups TBTrib and TB. Proposes that resistance exercise and tributyrin supplementation can be used in future studies with humans.

Câncer

Exercício

Inflamação

Nutrição

Tecido adiposo branco

Câncer

Exercise

Inflammation

Nutrition

White adipose tissue

Profiling Fatty Acid Composition of Brown Adipose Tissue, White Adipose Tissue and Bone Marrow Adipose Tissue of Healthy and Diet-Induced Obese Mice

Warncke, Urszula Osinska

21 August 2015

No description available.

Biochemistry

Matrigel alters the expression of genes related to adipogenesis and the production of extracellular matrix in 3T3-L1 cells

Josan, Chitmandeep

January 2018

Studying molecular mechanisms underlying adipocyte differentiation is imperative to understanding adipocyte function and its role in obesity. However, the majority of research exploring adipogenesis is conducted with cell lines cultured directly on tissue culture plastic. Culturing cells on plastic may result in altered proliferation and differentiation, and subsequent change in pharmacological response. The extracellular matrix (ECM) plays a critical role in adipocyte development and survival. It is suggested that cells in vitro express high levels of ECM proteins to compensate for lack of an ECM. Differentiating preadipocytes on a substrate representative of the mature adipocyte extracellular environment may provide a more physiological response to drugs and environmental chemicals. The purpose of this study was to investigate the impact of Matrigel on 3T3-L1 cell growth, differentiation, lipid accumulation and responsiveness to Rosiglitazone. Matrigel decreased 3T3-L1 cell proliferation, enhanced lipid accumulation, and increased expression of adipogenic and lipogenic markers, including PPARγ, C/EBPα, SREBP1c, FAS, LPL, FABP4 and PLIN1. This was accompanied by a decrease in gene expression of ECM proteins, including fibronectin, collagen 1, collagen 3, collagen 4, laminin and collagen 6 in 3T3-L1 cells on Matrigel. Finally, Matrigel enhanced the response of 3T3-L1 cells to Rosiglitazone, which is a known PPARγ agonist and significantly increases lipid accumulation in 3T3-L1 cells. Our results suggest that enhanced lipid accumulation in 3T3-L1 cells on Matrigel is associated with decreased expression of ECM genes. Future studies require investigation of the cell-to-ECM interaction to confirm these findings. This study proposes that the nature of the ECM for cultured adipocytes alters temporal lipid accumulation patterns and response to various drugs as compared to 3T3-L1 cells grown on tissue culture plastic. / Thesis / Master of Science (MSc)

Estrogen signaling interacts with Sirt1 in adipocyte autophagy

Tao, Zhipeng

18 June 2019

Obesity is a rapidly growing epidemic. It is associated with preventable chronic disease and vast healthcare cost in the United States (about 200 billion per year). Therefore, dissecting pathogenic mechanisms of obesity would provide effective strategies to prevent its development and reduce related cost. Obesity is characterized by excessive expansion of white adipose tissue (WAT). Autophagy, a cellular self-digestive process, is associated with WAT expansion and may be a promising target for combating obesity. Both hormone signaling (e.g., ERα) and energy sensing factors (e.g., Sirt1) control metabolism and prevent adiposity, and in which they have been shown to play collaborate roles. However, how autophagy is involved in ERα and Sirt1's inhibitory roles on adiposity is unknown. These questions have been addressed in my dissertation studies. To address this fundamental questions, I have established a method to monitor autophagy flux during adipocyte differentiation, which better reflected the dynamic process of autophagy. Compared with preadipocytes, autophagy flux activity was increased in mature adipocytes after differentiation. And then, my thesis project has addressed three main questions. Firstly, the gender difference in visceral fat distribution (Males have higher deposit of visceral fat than females) is controlled by an estradiol (E2)-autophagy axis. In C57BL/6J and wild type control mice, a higher visceral fat mass was detected in the males than in the females, which was associated with lower expression of estrogen receptor  (ER) and more active autophagy in males vs. females. ER knockout normalized this difference. Mechanistically, E2-ER- mTOR-ULK1-autophagy signaling contributed to the gender difference in visceral fat distribution. Secondly, in vitro and in vivo studies demonstrated that Sirt1 suppressed autophagy and reduced adipogenesis and adiposity via inducing mTOR-ULK1 signaling. Specific activation and overexpression of Sirt1 induced mTOR-ULK1 signaling to suppress autophagy and adipogenesis. And knockdown of Sirt1 exhibited opposite effects. The first and second studies revealed that ER and Sirt1 acted on mTOR-ULK1 signaling pathway, underlying the importance of their interaction in inhibiting autophagy and adipogenesis. As such, the third study was conducted and it unraveled that ER acted as upstream of Sirt1, possibly through its direct binding to Sirt1 promoter. Specifically, E2 signaling suppressed autophagy and adipogenesis. But when Sirt1 was knockdown, the effects of E2 on autophagy and adipogenesis were abolished. Taken together, my dissertation project underscores the importance for future research to consider gender difference and how E2-ER-autophagy axis contributes to this difference in other metabolic diseases. Also, the unraveled interaction between ERα and Sirt1 might lead to new therapeutic approach to adiposity and metabolic dysfunction in post-menopausal women or individuals with abnormal estrogen secretion. For example, dietary intervention or exercise challenge to activate Sirt1 may partially compensate estrogen deficiency. / Doctor of Philosophy / Obesity is a rapidly growing epidemic, which is associated with chronic disease and vast healthcare cost in the United States. Understanding the pathogenic mechanism of obesity is of critical importance. Recent studies have implicated autophagy, a cellular self-digestive process, in WAT development and expansion. It was also shown that hormone (e.g., via estrogen receptor ERα) and energy (e.g., via Sirt1) signaling control metabolism and adiposity. However, it is unclear whether and how autophagy interacts with ERα and Sirt1 in the regulation of adiposity. My dissertation project unraveled the mechanism of how hormone signaling (e.g., ERα) and energy sensing factors (e.g., Sirt1) interacted with autophagy to control adipogenesis and adiposity. My thesis project has addressed three main questions. Firstly, the gender difference in visceral fat distribution (Males have higher deposit of visceral fat than females) is controlled by an estradiol (E2)-autophagy axis, ER knockout normalized this difference. Mechanistically, E2- ER- mTOR-ULK1-autophagy signaling contributed to the gender difference in visceral fat distribution. Secondly, in vitro and in vivo studies demonstrated that Sirt1 induced mTOR-ULK1 signaling, suppressed autophagy and reduced adipogenesis and adiposity (ER similar effects). As such, the third study was conducted and it unraveled that ER acted as upstream of Sirt1, possibly through its direct binding to Sirt1 promoter. Taken together, my dissertation study has explored how hormone signaling (ER) and energy signaling (Sirt1) interact with autophagy to control adipogenesis and adiposity individually and collaboratively, which may provide new therapeutical approach to control obesity.

ERα

Sirt1

adipogenesis

Obesity

autophagy

gender difference

mTOR

ULK1

white adipose tissue

Role of <em>Fto</em> in the gene and microRNA expression of mouse adipose tissues in response to high-fat diet

Ronkainen, J. (Justiina)

25 October 2016

Abstract Obesity is associated with greater risk of several diseases, such as type 2 diabetes and metabolic syndrome. Single nucleotide polymorphisms (SNP) within the fat mass- and obesity-associated gene FTO are robustly associated with increased body mass index (BMI) in several age and ethnic groups. Studies with transgenic mice support a mechanistic role for FTO protein in energy metabolism. Fto-deficient mice are leaner than wild-type and overexpression of Fto leads to obese phenotype; however, the precise mechanism of FTO action in the control of BMI has remained obscure. Fto mRNA is most abundant in the brain while high expression is present also in white and brown adipose tissues (WAT and BAT, respectively). WAT stores the nutritional energy and BAT dissipates it to produce heat. Furthermore, these organs participate in a complex endocrine network affecting the whole body metabolism, which is more or less disrupted in obesity. In the browning process, white adipocytes begin to manifest brown characteristics. MicroRNAs (miRNA) are small RNA molecules, which fine-tune post-transcriptionally the expression of genes important in several cellular processes, including WAT and BAT differentiation and browning of WAT. FTO has been shown to participate in these processes as well as miRNA regulation. The current study used a new Fto-deficient mouse model to reveal deeper insights into the role of Fto on genes affecting WAT and BAT differentiation and function, as well as WAT browning. Furthermore, the effects of Fto on the miRNA regulation in WAT browning and BAT were investigated. Our results supported a role for Fto in adipose tissue. Fto-deficient mice were resistant to diet-induced obesity and their WAT and BAT adipocytes did not become hypertrophic similar to wild-type on high-fat diet. Furthermore, the expression of genes affecting adipose tissue differentiation and function was altered in Fto-deficient WAT and BAT, especially after high-fat diet, and the changes may be mediated via altered miRNA expression. Fto-deficient WAT was more susceptible to browning, which in part contributed to the lean phenotype of these mice. Current study supported a role for Fto in whole body metabolism and adaptation of adipose tissue to changes in dietary environment. / Tiivistelmä Lihavuus on toistuvasti yhdistetty useisiin liitännäissairauksiin, kuten tyypin 2 diabetekseen ja metaboliseen oireyhtymään. FTO-geenissä (fat mass- and obesity-associated) esiintyvien yhden nukleotidin muutoksien (single nucleotide polymorphia, SNP) on useissa ikä- ja etnisissä ryhmissä raportoitu liittyvän korkeampaan painoindeksiin ihmisillä. Muuntogeenisillä hiirillä tehdyt tutkimukset tukevat FTO:n mekanistista roolia energia-aineenvaihdunnassa, sillä Fto-poistogeeniset hiiret ovat villityypin hiiriä laihempia ja sen yliekspressio johtaa ylipainoon. FTO:n tarkka rooli painon säätelyssä on kuitenkin vielä epäselvä. Fto:ta tuotetaan eniten aivoissa, mutta myös valkoisessa ja ruskeassa rasvassa. Valkoinen rasva varastoi ravinnosta saatavan energian ja ruskea hajottaa sitä lämmöntuotantoon. Näillä kudoksilla on lisäksi tärkeä rooli energia-aineenvaihdunnan monimutkaisessa verkostossa. Valkoisen rasvakudoksen ruskettumisprosessissa valkoiset rasvasolut alkavat muistuttaa ruskeita rasvasoluja. Mikro-RNA:t (miRNA) ovat pieniä RNA-juosteita, jotka hienosäätävät geenien ekspressiota transkription jälkeen ja vaikuttavat useisiin solun tärkeisiin tapahtumiin, myös valkoisen ja ruskean rasvasolun erilaistumiseen ja ruskettumiseen. FTO osallistuu näihin prosesseihin sekä miRNA-säätelyyn. Tämän tutkimuksen tavoitteena oli selventää Fto:n roolia valkoisen ja ruskean rasvakudoksen erilaistumisessa ja toiminnassa Fto-poistogeenisen hiirimallin avulla. Lisäksi selvitettiin Fto:n vaikutuksia valkoisen rasvan ruskettumiseen ja ruskean rasvan toimintaan osallistuvien miRNA:iden säätelyyn. Tulokset tukivat FTO:n roolia rasvakudoksessa. Fto-poistogeeniset hiiret eivät lihoneet rasvaisella ruokavaliolla eivätkä niiden rasvasolut varastoineet rasvaa yhtä paljon kuin villityypin hiirillä rasvaisen ruokavalion jälkeen. Lisäksi Fto-poistogeenisen rasvakudoksen erilaistumiseen ja toimintaan liittyvien geenien esiintyvyys muuttui erityisesti rasvaisella ruokavaliolla. Nämä muutokset voivat osittain selittyä muuttuneella miRNA-säätelyllä. Tulokset viittasivat siihen, että Fto-poistogeeninen valkoinen rasvakudos oli alttiimpaa ruskettumiselle, mikä osaltaan vaikutti Fto-poistogeenisten hiirten laihuuteen. Tutkimus tuki Fto-geenin roolia energia-aineenvaihdunnan säätelyssä sekä rasvakudoksen mukautumisessa ruokavalion muutoksiin.

brown adipose tissue

gene expression

high-fat diet

microRNA expression

white adipose tissue

white adipose tissue browning

geeniekspressio

mikro-RNA-ekspressio

rasvainen ruokavalio

ruskea rasvakudos

valkoinen rasvakudos

valkoisen rasvakudoksen ruskettuminen

FTO

β-Adrenergic Signalling Through mTOR

Olsen, Jessica M.

January 2017

Adrenergic signalling is part of the sympathetic nervous system and is activated upon stimulation by the catecholamines epinephrine and norepinephrine. This regulates heart rate, energy mobilization, digestion and helps to divert blood flow to important organs. Insulin is released to regulate metabolism of carbohydrates, fats and proteins, mainly by taking up glucose from the blood. The insulin and the catecholamine hormone systems are normally working as opposing metabolic regulators and are therefore thought to antagonize each other. One of the major regulators involved in insulin signalling is the mechanistic target of rapamycin (mTOR). There are two different complexes of mTOR; mTORC1 and mTORC2, and they are essential in the control of cell growth, metabolism and energy homeostasis. Since mTOR is one of the major signalling nodes for anabolic actions of insulin it was thought that catecholamines might oppose this action by inhibiting the complexes. However, lately there are studies demonstrating that this may not be the case. mTOR is for instance part of the adrenergic signalling pathway resulting in hypertrophy of cardiac and skeletal muscle cells and inhibition of smooth muscle relaxation and helps to regulate browning in white adipose tissue and thermogenesis in brown adipose tissue (BAT). In this thesis I show that β-adrenergic signalling leading to glucose uptake occurs independently of insulin in skeletal muscle and BAT, and does not activate either Akt or mTORC1, but that the master regulator of this pathway is mTORC2. Further, my co-workers and I demonstrates that β-adrenergic stimulation in skeletal muscle and BAT utilizes different glucose transporters. In skeletal muscle, GLUT4 is translocated to the plasma membrane upon stimulation. However, in BAT, β-adrenergic stimulation results in glucose uptake through translocation of GLUT1. Importantly, in both skeletal muscle and BAT, the role of mTORC2 in β-adrenergic stimulated glucose uptake is to regulate GLUT-translocation. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p>

Glucose uptake

Brown adipose tissue

White adipose tissue

Skeletal muscle

Mechanistic target of rapamycin

Glucose transporter

Physiology

Physiology

Fysiologi

A suplementação crônica com ácido linoléico conjugado promove redução da massa adiposa e compromete a sensibilidade à insulina no tecido adiposo branco periepididimal. / Chronic supplementation with conjugated linoleic acid reduces adipose mass and mpairs insulin sensitivity in periepidydimal white adipose tissue.

Campos, Tarcila Beatriz Ferraz de

23 April 2008

O ácido linoléico conjugado (CLA) é um ácido graxo poliinsaturado, encontrado nos produtos da alimentação. Estudos indicam que o CLA possui ações contra câncer, aterogênese e DM 2 e obesidade. O presente trabalho avaliou os efeitos da suplementação crônica com CLA em ratos Wistar machos e teve como objetivo investigar o desenvolvimento corporal e o perfil metabólico dos animais e dos adipócitos isolados do tecido adiposo branco periepididimal. Após quatro semanas de suplementação os animais apresentaram redução no ritmo de ganho de peso, acompanhado de redução da ingestão alimentar, redução da massa adiposa e do volume celular dos adipócitos. A menor incorporação dos substratos acetato e glicose em lipídeos, o aumento lipólise e diminuição da expressão do PPAR?, também contribuíram para menor adiposidade encontrada. A redução de massa adiposa foi acompanhada por resistência à insulina, elevados níveis de citocinas inflamatórias e desenvolvimento de esteatose hepática. Esses fatores estão relacionados com o desenvolvimento de síndrome lipodistrófica em animais. Portanto, a efetividade do CLA em reduzir massa adiposa foi comprovada no presente estudo, mas os efeitos devem ser considerados. / Conjugated linoleic acid (CLA) is a natural polyunsatured fatty acid found in many dietary sources. Animal studies demonstrated that CLA has properties against cancer, atherogenesis, diabetes and obesity. This work evaluated the effects with chronic CLA supplementation in young adults Wistar male rats for four weeks, aiming to investigate the possible changes in corporal development and metabolic profile as well as the effects in isolated adipocytes of periepidydimal white adipose tissue of these supplemented animals. We observed a reduction of the rhythym of body weight gain, followed by diminished food intake, regression of adipose mass, and also a reduction of adipocyte volume. The findings of low incorporation of acetate and glucose substrates into lipids, elevation on the lipolytic response and reduction of PPAR-gamma gene expression, also contributed to the lower adiposity. This reduction in adipose mass was followed by insulin resistance, high levels of inflammatory citokines and the development of hepatic steatosis, features related to the development of lipodystrophic syndrome. Therefore, this study demonstrated the CLA effect on reduction of adipose mass, although adverse effects associated with CLA chronic supplementation must be considered.

Ácido linoléico conjugado

Conjugated linoleic acid

Insulin resistance

Lipogênese

Lipogenesis

Lipólise

Lipolysis

Resistência à insulina

Tecido adiposo branco

White adipose tissue

Central Nervous System Regulation of Fat Cell Lipid Mobilization: The Role of the Sympathetic Nervous System

Foster, Michelle Tranace

12 January 2006

Obesity is a growing disorder in the United States, affecting over 60% of the population. We previously defined sympathetic nervous system (SNS) outflow from brain to white adipose tissue (WAT) using a viral transneuronal tract tracer. SNS innervation of WAT is the principle initiator of lipolysis, whereas decreases in sympathetic drive promote lipid accumulation. Which of the many origins of SNS outflow from brain to WAT results in SNS-mediated changes in lipid mobilization (increases in drive) or accumulation (decrease in drive) is unknown. Previous research indicates that sympathetic denervation blocks lipid mobilization; thus, rostral sites in the neuroaxis connected to WAT via the SNS may promote WAT lipid mobilization. The hypothalamic paraventricular nucleus (PVN) may play a role via its descending projections to the intermediolateral horn of the spinal cord. Therefore, the consequences of PVN lesions (PVNx) on WAT mobilization or accumulation were tested. PVNx resulted in increased lipid accumulation, indicated by increases in retroperitoneal (RWAT) , epididymal (EWAT) , and inguinal WAT (IWAT) pad masses, in fed hamsters, but PVNx did not block fasting (56 h)-induced lipid mobilization. Because adrenal medullary catecholamines, especially epinephrine, also play a minor role in lipid mobilization, we tested the contribution of catecholamine release on lipid mobilization through adrenal demedullation (ADMEDx), with and without PVNx, and found fastinginduced lipid mobilization was not blocked. There was, however, a suggestion that distal denervation of IWAT, with and without ADMEDx, partially blocked lipid mobilization. In addition, evidence suggests SNS also may be an important controller of fat cell proliferation. Surgical denervation of WAT triggers increases in fat cell number (FCN), but have not determined if this FCN increase is due to preadipocyte proliferation or differentiation of preadipocytes into mature fat cells. We also have not demonstrated what role sensory innervation may have in regulating white adipocyte proliferation. Therefore, the role of WAT sympathetic or sensory innervation on adipocyte proliferation was tested. The SNS but not sensory denervation triggered bona fide proliferation as indicated by bromodeoxyuridine plus AD3, a specific adipocyte membrane protein, colabeling. These and previous data suggest that the SNS plays a role in regulating adiposity.

Sympathetic Nervous System (SNS)

Lipid Mobilization

Sympathetic Denervation

Bromodeoxyuridine (BrdU)

Paraventricular Nucleus (PVN)

Obesity

White Adipose Tissue (WAT)

Biology, general

Efeitos pleiotrópicos da telmisartana nos tecidos adiposos branco e marrom: aumento da expressão gênica e proteica pan-PPAR em camundongos obesos / Pleiotropic effects of telmisartan in white and brown adipose tissues: enhanced pan-PPAR gene and protein expression in obese mice

Aline Penna de Carvalho

15 July 2014

Receptores ativadores de proliferação perixossomal(PPARs) são fatores de transcrição envolvidos com a oxidação dos ácidos graxos e proliferação celular, mediando diversas vias, o que representa uma estratégia promissora para enfrentar as características da síndrome metabólica. Existem três isoformas de PPARs(PPARalfa, beta/delta e gama), que são diferencialmente expressos em diferentes tecidos.No presente estudo, objetivou-se avaliar os efeitos pleiotrópicos da telmisartana, um anti-hipertensivo, bloqueador do receptor AT1 da angiotensina e agonista parcial PPAR gama, no tecido adiposo branco (TAB) e marrom (TAM) em camundongos obesos induzido por dieta.Camundongos machos, da linhagem C57BL/6 foram alimentados com uma dieta padrão (standard-chow, 10% da energia proveniente de lipídios) ou com uma dieta com alto teor lipídico (high fat, 49% de energia proveniente de lipídios) durante 10 semanas. Em seguida, os animais foram distribuídos aleatoriamente em quatro grupos: SC, SC-T, HF e HF-T (n=10). O fármaco foi administrado (10mg/kg de dieta) durante 4 semanas para os grupos SC-T e HF-T.O grupo HF apresentou sobrepeso, hipertensão arterial sistêmica, perfil de adipocinas pró-inflamatórias, resistência insulínica, diminuição do gasto energético, comprometimento do metabolismo da glicose e distribuição anormal da massa adiposa. Além disso, a obesidade ocasionou diminuição da expressão de PPARalfa, beta/delta e gama noTAB e TAM, resultando na inadequação da captação de glicose e termogênese insuficiente. Por outro lado,a ativação das três isoformas de PPARs, a melhora do perfil inflamatório das adipocinas, o aumento da sensibilidade à insulina e a melhora da captação de glicose, foi vistaapós o tratamento com telmisartana. A ativação dos PPARs no TAB trouxe muitos benefícios. No TAM, resultados surpreendentes foram que a telmisartana provocou o aumento da expressão do recepetor adrenérgico beta 3 (RA&#946;3), induzido pela ativação de PPARbeta/delta e maior termogênese comaumento da expressão da proteína desacopladora1 (UCP1). Em conclusão, nossos resultados mostram que telmisartanaaumenta a expressão gênica e proteica PAN-PPAR no TAB e TAM em camundongos obesos induzidos por dieta. Nossas observações mostram que, apesar do grupo HF-T ter reduzido a ingestão energética, os efeitossão explicados pela ativação PAN-PPAR da telmisartana, causando a ativação da termogênese e resultando num balanço energético negativo. / Peroxisome proliferator-activated receptor (PPARs) are transcription factors involved in fatty acids oxidation and cell proliferation, mediating different pathways, representing a hopeful strategy to deal with the characteristics of metabolic syndrome. There are three isoforms of PPARs (PPAR alpha, beta / delta and gamma) that are differentially expressed in different tissues. The present study, aimed to evaluate pleiotropic effects of telmisartan, an anti-hypertensive, angiotensin receptor blocker AT1 and PPAR gamma agonist in white adipose tissue (WAT) and brown adipose tissue (BAT) in diet-induced obese mice. Male C57BL/6 mice fed a standard diet (standard-chow, 10% of energy from lipids) or a high fat diet (high fat, 49% of energy from lipids) for 10 weeks. Afterwards, groups were subdivided into: SC, SC-T, HF and HF-T (n=10, each). Treatment with telmisartan (10 mg/Kg BM, in the diet) was maintained for 4 weeks. The HF group showed overweight, hypertension, adipokine pro-inflammatory profile, insulin resistance, decreased in energy expenditure, flawed in glucose metabolism and abnormal distribution of adipose mass. Furthermore, obesity caused reduced expression of PPARalpha, beta/delta and gamma in WAT and BAT, resulting in unproductive glucose uptake and insufficient thermogenesis. On the other hand the activation of the three isoforms of PPARs, the improvement of the inflammatory profile, increased insulin sensitivity and improved glucose uptake was observed after treatment with telmisartan. The activation of PPARs in BAT provided many benefits. In BAT, surprising new findings show that telmisartan caused sympathetic activation with beta-3 adrenergic receptor (RA&#946;3), induced activation PPARbeta /delta and increased thermogenesis with increased expression of uncoupling protein 1 (UCP1), that it is a target gene of PPARalpha. In conclusion, our results show for the first time telmisartan increases the gene and protein expression PAN-PPAR in WAT and BAT in diet-induced obese mice. Our observations demonstrate that, although the HF-T group have reduced energy intake, the effects are explained by the PPAR-PAN activation of telmisartan, causing the activation of thermogenesis through maintaining sympathetic stimulation and increased expression of UCP1, resulting in a negative energy balance.

Telmisartana

Tecido adiposo branco

Tecido adiposo marrom

Termogênese

Telmisartan

White Adipose Tissue

Brown Adipose Tissue

Thermogenesis

MORFOLOGIA