Rôle du tissu adipeux dans l’effet cardioprotecteur du EP 80317, un ligand sélectif du récepteur CD36

Huynh, David N.

04 1900

Le récepteur CD36 est impliqué dans le transport des acides gras libres non estérifiés (AGNE) au niveau des tissus cardiaque et périphériques. Les dommages tissulaires et la dysfonction cardiaque observés après une ischémie-reperfusion (I/R) du myocarde sont en partie liés à l’internalisation et au métabolisme oxydatif accrus des AGNE dont la concentration sanguine augmente transitoirement après un infarctus du myocarde, contrairement à ce qui est observé chez des souris déficientes en CD36. Nous avons émis l’hypothèse selon laquelle le EP 80317, un ligand synthétique du récepteur CD36, exercerait un effet cardioprotecteur contre les dommages induits par une ischémie transitoire du myocarde. Nos objectifs étaient 1) de vérifier l’effet cardioprotecteur du EP 80317 et 2) de définir son mécanisme, plus précisément de documenter l’effet du traitement sur le métabolisme lipidique. À cette fin, des souris de type sauvage ont été traitées par le EP 80317 (289 nmol/kg) par voie sous-cutanée pendant 14 jours avant d’être soumises à 30 minutes d’ischémie suivant la ligature de l’artère coronaire gauche descendante et de sa reperfusion pendant une période de 6 ou 48 heures. Le cœur et les tissus périphériques (foie, muscle squelettique et dépôts adipeux) ont été prélevés pour déterminer le profil de certains gènes impliqués dans la régulation du métabolisme lipidique. Nos travaux ont montré que l’effet cardioprotecteur d’un traitement préventif par le EP 80317 est associé à une augmentation transitoire du stockage des triglycérides et d’une réduction des AGNE circulants. / The CD36 receptor is involved in the transport of non-esterified fatty acids (NEFA) in cardiac and peripheral tissues. Tissue injury and cardiac dysfunction are in part due to acute internalization and oxidative metabolism of NEFA which concentration rises transiently in the blood following myocardial infarction, in opposition to what is observed in CD36-deficient mice. We hypothesized that EP 80317, a synthetic ligand of the CD36 receptor, provides cardioprotective effect against injuries induced by transient myocardial ischemia. Our objectives were 1) to verify the cardioprotective effect of EP 80317 and 2) to define its mechanism, more precisely to investigate the mechanisms of the treatment on lipid metabolism. For this purpose, wild-type mice were treated with EP 80317 (289 nmol/kg) subcutaneously for 14 days before being submitted to 30 minutes of ischemia following left anterior descending coronary artery ligature and reperfusion for a period of 6 or 48 hours. Heart and peripheral tissues (liver, skeletal muscle and adipose tissue) were harvested to determine the profile of selected genes involved in the regulation of lipid metabolism. Our work has shown that the cardioprotective effect of a pretreatment with EP 80317 is associated with a transient increase of triglycerides storage and reduced circulating NEFA.

CD36

Coeur

Tissu adipeux

Ischémie-reperfusion

Acide gras non estérifié

Heart

Adipose tissue

Ischemia-reperfusion

Non-esterified fatty acids

Role of Tyk2 in the Development of Beige Cells

Umali, Samantha

19 July 2011

Obesity results from an excess of adipose tissue and is a major risk factor for type 2 diabetes, cardiovascular disease, and cancer. Adipose tissue exists in two main forms: white adipose tissue (WAT), which stores energy as triglycerides, and brown adipose tissue (BAT), which dissipates stored energy as heat. White adipose tissue is composed of several subcutaneous and visceral depots, each possessing distinct molecular and functional characteristics. Brown-like adipocytes can emerge in WAT depots in response to cold or beta-adrenergic stimulation. These cells have been called “beige” or “brite” (brown-in-white) cells. The reduction of obesity in mice treated with beta-adrenergic agonists is correlated with the emergence of beige cells. Beige cell development occurs most readily in subcutaneous depots, and to the least extent in visceral depots. Understanding the molecular mechanisms underlying beige cell development in different WAT depots may be important in discovering new therapies against obesity and related diseases. Our lab has previously discovered that Tyrosine Kinase 2 (Tyk2), an important mediator of cytokine signaling, promotes the development of classical brown adipose tissue. Due to the lack of functional BAT, Tyk2-knockout (Tyk2-/-) mice become grossly obese with age and develop several symptoms of the metabolic syndrome. In the present study, we have found a potential role of Tyk2 in the development of beige cells. Here, we show that mRNA expression of BAT-selective genes (UCP1, Cidea, Cox8b, and Elovl3) is significantly reduced in subcutaneous WAT of Tyk2-knockout (Tyk2-/-) mice compared to wild-type mice. Surprisingly, BAT-selective genes are induced in Tyk2-/- subcutaneous WAT by acute starvation. These findings suggest that Tyk2 is required for the development of beige cells under ambient conditions, and that the need for Tyk2 in beige cell development is bypassed during nutritional stress, a stimulus of the sympathetic response.

Tyk2

UCP1

brown adipose tissue

beige cells

brite cells

subcutaneous fat

starvation

adipogenesis

obesity

metabolic syndrome

Life Sciences

Le lien entre l’apoB plasmatique et le risque de diabète de type 2 chez les individus obèses : un défaut de clairance des gras diététiques

Lamantia, Valérie

02 1900

OBJECTIF: L’apoB plasmatique prédit le diabète de type 2 chez l’humain. Une clairance ralentie des triglycérides (TG) favorise la lipotoxicité et la résistance à l’insuline (RI). Nous avons démontré ex vivo que les LDL, forme majeure d’apoB-lipoprotéines, altèrent le stockage des gras dans le tissu adipeux blanc (TAB) humain. Nous émettons l’hypothèse que le lien reliant l’apoB plasmatique à la RI et l’hyperinsulinémie est médié par un retard de clairance des gras diététiques. MÉTHODE/RÉSULTATS: Nous avons examiné la sécrétion d’insuline (SI), puis la RI lors d’un test de tolérance au glucose intraveineux suivi d’un clamp hyperinsulinémique-euglycémique chez des sujets obèses normoglycémiques (N=29, 45%hommes, indice de masse corporelle (IMC)≥27kg/m2, 45-74ans, post-ménopausés). La clairance des TG diététiques a été mesurée suivant l’ingestion d’un repas gras marqué au 13C. La fonction d’une biopsie de TAB (à jeun) a été mesurée comme la capacité à stocker un substrat de 3H-TG. L’apoB était de 1,03±0,05g/L et corrélait avec la RI, la 2ième phase de SI, un délai de clairance des TG diététiques et une réduction de la fonction du TAB. Un retard de clairance des TG diététiques était associé à la RI et la 2ième phase de SI. Une correction pour la clairance des TG diététiques ou la fonction du TAB a éliminé l’association entre l’apoB et la RI et la 2ième phase de SI. CONCLUSION: L’association entre l’apoB plasmatique et la RI et la SI chez les sujets obèses est médiée par une clairance ralentie des gras diététiques et une dysfonction du TAB. / OBJECTIVE: Plasma apoB predicts type 2 diabetes in humans. Delayed TG clearance promotes lipotoxicity and insulin resistance (IR). We demonstrated ex vivo that LDL, the major form of apoB-lipoproteins, impairs human white adipose tissue (WAT) fat storage. We hypothesized that the link between plasma apoB, IR and hyperinsulinemia is mediated through delayed dietary fat clearance. METHODS/RESULTS: We examined insulin secretion (IS) and IR during a intravenous-glucose tolerance test followed by a hyperinsulinemic-euglycemic clamp in normoglycemic obese (N=29, 45%men, body mass index (BMI)≥27kg/m2, 45-74yrs, postmenopausal). Dietary TG clearance was measured after the ingestion of a 13C-triolein-labeled high-fat meal. The function of a fasting WAT biopsy was measured as the ability to store a 3H-TG substrate. Plasma apoB averaged 1.03±0.05g/L, and correlated with IR, 2nd phase IS, delayed dietary TG clearance and reduced WAT function. Moreover, delayed dietary TG clearance was associated with higher IR and 2nd phase IS. Correcting for dietary TG clearance or WAT function eliminated the association of plasma apoB with IR and 2nd phase IS. CONCLUSION: The association of plasma apoB with IR and IS in obese subjects is mediated by delayed dietary fat clearance and WAT dysfunction.

ApoB

Tissu adipeux

Résistance à l'insuline

Sécrétion d'insuline

Adipose tissue

Insulin resistance

Insulin secretion

Triglyceride postprandial clearance

Rôle de l'endoribonucléase latente (RNase L) dans l'immunité innée et l'inflammation chronique lors du développement de l'insulinorésistance / Role of latent endoribonuclease (RNase L) in innate immunity and chronic inflammation during insulin resistance development

Fabre, Odile

22 May 2013

L'insulinorésistance, caractérisée par l'incapacité des organes impliqués dans le métabolisme énergétique (tissu adipeux, muscles squelettiques et foie) à répondre à l'insuline, tient une place centrale dans la physiopathologie des complications métaboliques de l'obésité. L'apparition d'une insulinorésistance chez un sujet obèse est plurifactorielle et les mécanismes moléculaires impliqués ne sont à ce jour pas complètement élucidés.L'expansion majoritairement hyperplasique du tissu adipeux conduit à une hypoxie et un stress des adipocytes, induisant un relargage accru de cytokines inflammatoires et d'acides gras libres (AGL). Les AGL se fixent eux-mêmes sur les récepteurs toll-like (TLRs) de l'immunité innée, dont l'activation aboutit également à la sécrétion de cytokines inflammatoires. Ces AGL et cytokines, véhiculés par la circulation systémique, contribuent, avec la coopération des macrophages infiltrant le tissu adipeux, au développement d'une inflammation chronique de bas grade. Ainsi, les perturbations de l'homéostasie énergétique, associées à une activation du système immunitaire sont à l'origine d'une atteinte globale de la sensibilité à l'insuline de l'organisme, particulièrement délétère au métabolisme musculaire.Cette étude porte sur le rôle d'un effecteur de l'immunité innée, l'endoribonucléase latente (RNase L), dont l'expression est régulée par les interférons de type I et l'activation, par un oligoadénylate, le 2-5A. La RNase L clive les ARNs cellulaires conduisant à l'inhibition spécifique de l'expression de certains gènes. Nous montrons par ce travail l'implication de la RNase L dans le contrôle de la différenciation cellulaire et la pathogenèse de l'insulinorésistance associée à l'obésité, via la régulation des voies de l'inflammation au niveau des tissus adipeux et musculaire. / Insulin resistance, which is characterized by the incapacity of organs involved in the energetic metabolism (adipose tissue, skeletal muscles and liver) to respond to insulin, has a central place in the pathophysiology of the metabolic complications associated to obesity. The onset of insulin resistance in obese subjects is multifactorial and the molecular mechanisms involved have not yet been completely elucidated.The mainly hyperplasic expansion of white adipose tissue leads to hypoxia and stress in adipocytes, inducing an increased release of inflammatory cytokines and free fatty acids (FFA). FFA bind and activate the toll-like receptors (TLR) of the innate immunity system, leading to the secretion of inflammatory cytokines. These FFA and cytokines, taken by the systemic circulation, contribute, with the cooperation of macrophages infiltrating the adipose tissue, to the development of a chronic low-grade inflammation. Thus, the disturbances of the energetic homeostasis, associated with an activation of the immune system cause a global impairment of insulin sensitivity of the body, with particularly deleterious effects on muscular metabolism.This study focuses on the role of an effector of innate immunity, the latent endoribonuclease (RNase L). RNase L expression is regulated by type I interferons and is activated by the 2-5A oligoadenylate. RNase L splits cellular RNA, thus leading to the specific inhibition of the expression of certain genes. In this study, we demonstrate the implication of RNase L in the control of cell differentiation and the pathogenesis of obesity-associated insulin resistance, via the regulation of inflammatory pathways in the adipose and muscular tissues.

Endoribonucléase latente (RNase L)

Insulinorésistance

Immunité innée

Inflammation chronique

Muscle squelettique

Tissu adipeux

Latent endoribonuclease (RNase L)

Insulin resistance

Innate immunity

Chronic inflammation

Skeletal muscle

Adipose tissue

613

Effet protecteur de la vitamine D sur l'obésité et les désordres physiologiques associés

Marcotorchino, Julie

10 December 2012

Le tissu adipeux blanc n'est pas un simple réservoir énergétique, il secrète également de nombreuses molécules appelées adipokines. En condition basale, les adipokines participent à l'homéostasie générale en permettant la régulation de diverses fonctions et voies métaboliques. Au cours du développement de l'obésité, la physiologie du tissu adipeux est fortement perturbée. Cela se traduit par des dysfonctionnements parmi lesquels l'établissement d'un état inflammatoire chronique à bas bruit. Ces perturbations au sein du tissu adipeux concourent à la dysrégulation de l'expression des adipokines, conduisant à un dysfonctionnement de certaines voies métaboliques, au niveau adipocytaire mais aussi au niveau systémique ce qui aboutit à un état d'insulino-résistance pouvant déboucher sur le développement d'un diabète de type 2. De nombreuses études épidémiologiques montrent qu'une carence en vitamine D est associée à diverses pathologies telles que certains cancers, certaines maladies auto-immunes ou maladies cardiovasculaires. Par ailleurs, il existe une corrélation inverse entre les taux plasmatiques de 25(OH)D et la prévalence de l'obésité, de l'hypertension artérielle, et du diabète de type 2. Cependant, le lien de causalité entre carence en vitamine D et obésité n'est à ce jour pas clairement démontré. Le but de cette thèse est donc de mieux comprendre le lien qui existe entre carence en vitamine D, obésité et désordres physiologiques associés. / White adipose tissue is not a simple energy reservoir, it also secretes several molecules called adipokines. In standard conditions, adipokines are involved in general homeostasis permitting the regulation of numerous functions and metabolic pathways. During the development of obesity, adipose tissue physiology is severely disrupted. This results in dysfunction such as low-grade inflammatory status. The accumulation of these disturbances within adipose tissue generates a dysregulation of adipokines secretion. This will have for consequences a failure of some metabolic pathways resulting in insulin-resistant state leading to type 2 diabetes. Several epidemiological studies show a link between vitamin D deficiency and numerous pathologies like cancers, immunity deseases or cardiovascular deseases. In addition, there is an inverse correlation between plasma levels of 25(OH)D and the prevalence of obesity, hypertension and type 2 diabetes. However, the link between vitamin D deficiency and obesity is not well established. The aim of this thesis is to better understand the link between vitamin D deficiency, obesity and physiological disorders associated. For this purpose, we have evaluated vitamin D effects on adipose tissue and adipocyte biology (inflammation, glucose uptake) and subsequently effects of vitamin D supplementation on diet-induced obesity. In a first study in vitro, we have showed an anti-inflammatory effect of vitamin D on adipocyte. This effect appears to be VDR-dependant and implies a modulation of NFκB signaling pathway. This study could partly explain le link between vitamine D deficiency and low-grade inflammation associated with obesity.

Tissu adipeux

Obésité

Vitamine D

Inflammation

Insulino-résistance

Diabète de type 2

Adipose tissue

Obesity

Vitamin D

Inflammation

Insulin resistance

Type 2 diabetes

Adipose-derived human stem/stromal cells: comparative organ specific mitochondrial bioenergy profiles

Ferng, Alice S., Marsh, Katherine M., Fleming, Jamie M., Conway, Renee F., Schipper, David, Bajaj, Naing, Connell, Alana M., Pilikian, Tia, Johnson, Kitsie, Runyan, Ray, Black, Stephen M., Szivek, John A., Khalpey, Zain

01 December 2016

Background: Adipose-derived stem/stromal cells (ASCs) isolated from the stromal vascular fraction are a source of mesenchymal stem cells that have been shown to be beneficial in many regenerative medicine applications. ASCs are an attractive source of stem cells in particular, due to their lack of immunogenicity. This study examines differences between mitochondrial bioenergetic profiles of ASCs isolated from adipose tissue of five peri-organ regions: pericardial, thymic, knee, shoulder, and abdomen. Results: Flow cytometry showed that the majority of each ASC population isolated from the adipose tissue of 12 donors, with an n = 3 for each tissue type, were positive for MSC markers CD90, CD73, and CD105, and negative for hematopoietic markers CD34, CD11B, CD19, and CD45. Bioenergetic profiles were obtained for ASCs with an n = 4 for each tissue type and graphed together for comparison. Mitochondrial stress tests provided the following measurements: basal respiration rate (measured as oxygen consumption rate [pmol O-2/min], ATP production, proton leak, maximal respiration, respiratory control ratio, coupling efficiency, and non-mitochondrial respiration. Glycolytic stress tests provided the following measurements: basal glycolysis rate (measured as extracellular acidification rate [mpH/min]), glycolytic capacity, glycolytic reserve, and non-glycolytic acidification. Conclusions: The main goal of this manuscript was to provide baseline reference values for future experiments and to compare bioenergetic potentials of ASCs isolated from adipose tissue harvested from different anatomical locations. Through an investigation of mitochondrial respiration and glycolysis, it was demonstrated that bioenergetic profiles do not significantly differ by region due to depot-dependent and donor-dependent variability. Thus, although the physiological function, microenvironment and anatomical harvest site may directly affect the characteristics of ASCs isolated from different organ regions, the ultimate utility of ASCs remains independent of the anatomical harvest site.

Adipose-derived stem/stromal cells

Human adipose tissue

Mitochondrial bioenergetics

Bioenergetic profiling

Stromal vascular fraction

Mesenchymal stem cells

Extracellular flux

Tissue engineering

Biocommunication entre le tissu adipeux viscéral et la cellule bêta-pancréatique : isoprostanes et microARNs / Biocommunication between visceral adipose tissue and pancreatic beta-cell : isoprostanes and microRNAs

Laget, Jonas

05 June 2019

Le diabète de type 2 résulte d’un déséquilibre entre les capacités de sécrétion de l’insuline par les cellules bêta-pancréatiques et son action au niveau de ses tissus cibles. Dans le prédiabète, l’hypersécrétion d’insuline compense l’insulino-résistance et cet état est généralement associé à l’obésité et à l’accumulation de tissu adipeux.L’objectif de ma thèse a été d’étudier la biocommunication entre le tissu adipeux viscéral et la cellule bêta-pancréatique lors du prédiabète et du diabète de type 2, en me focalisant sur deux médiateurs originaux, les isoprostanes et les miARNs. Nous avons observé une diminution de la sécrétion d’isoprostanes par le tissu adipeux péripancréatique au cours de l’obésité chez le rat Zucker fa/fa. Spécifiquement observé dans ce tissu adipeux ectopique, ce résultat s’explique par une induction des principales enzymes antioxydantes et une réduction de l’expression de la sPLA2 IIA chez les animaux obèses. Remarquablement, une des isoprostanes, la 15-F2t-Isoprostane ainsi que son épimère aux concentrations de 10 nM et 10 μM inhibent la sécrétion d’insuline gluco-stimulée dans les îlots pancréatiques isolés de rat Wistar. Cet effet pourrait s’expliquer par la liaison de cette isoprostane avec le récepteur au thromboxane A2, dont l’expression génétique et protéique a été mise en évidence pour la première fois dans les îlots de Langerhans et les cellules bêta. La réduction de l’inhibition de la sécrétion d’insuline chez le rat Zucker fa/fa, par une biocommunication paracrine, pourrait favoriser les mécanismes de compensation bêta-cellulaire. Par ailleurs, la production de miARNs, contenus dans des vésicules extracellulaires, par le tissu adipeux omental a été analysée chez l’homme par small RNAseq. Chez des patients obèses, la production de miARNs est modifiée lors de l’insulino-résistance et du diabète de type 2 avec des conséquences possibles sur la fonctionnalité des cellules bêta. Des miARNs différentiellement exprimés lors du diabète de type 2 pourraient ainsi participer à son apparition et représenter de nouveaux biomarqueurs et cibles thérapeutiques. Pour conclure, ces travaux de thèse ont permis de mettre en évidence de nouveaux mécanismes de biocommunication entre le tissu adipeux et les cellules bêta-pancréatiques. / Type 2 diabetes occurs as a result of an unability of pancreatic beta-cells to meet the insulin demand in its target tissues. During prediabetes insulin hypersecretion compensate for insulin resistance and this state is usually associated with obesity and excess body fat.The aim of my thesis was to study the biocommunication between visceral adipose tissue and pancreatic beta-cells during prediabetes and type 2 diabetes, with a focus on two original mediators, isoprostanes and miRNAs. We observed a decrease in isoprostane secretion by peripancreatic adipose tissue during obesity in Zucker fa/fa rats. In this ectopic adipose tissue, this observation may be related to an induction of some antioxidant enzymes and a reduction of the expression of sPLA2 IIA in obese animals. Remarkably, 15-F2t-Isoprostane as well as its epimer used at concentrations of 10 nM and 10 μM inhibited glucose-stimulated insulin secretion in isolated pancreatic islets. This effect could be explained by the binding of isoprostanes to the thromboxane A2 receptor, whose gene and protein expression has been demonstrated for the first time in islets and beta-cells. In Zucker fa/fa rats, less inhibition of insulin secretion through a paracrine biocommunication, could favor beta-cell compensatory mechanisms. Furthermore, the production of miRNAs, contained in extracellular vesicles released by omental adipose tissue, was analyzed in humans by small RNAseq. In obese patients, miRNAs production is altered during insulin resistance and type 2 diabetes with possible consequences for beta-cell function. Differentially expressed miRNAs in type 2 diabetes may participate in its development and represent novel biomarkers and therapeutic targets. In conclusion, this thesis highlighted new biocommunication mechanisms between adipose tissue and beta-pancreatic cells.

Diabète de type 2

Biocommunication

Cellule bêta-Pancréatique

Tissu adipeux

Isoprostanes

MiARNs

Type 2 diabetes

Biocommunication

Pancreatic beta-Cell

Adipose tissue

Isoprostanes

MiRNAs

Význam metabolismu tukové tkáně pro celotělovou energetickou rovnováhu / Importance of adipose tissue metabolism for whole-body energy balance

Zouhar, Petr

January 2015

Adipose tissue plays a crucial role in nutrient and energy homeostasis. At the time of worldwide pandemy of obesity and consequent metabolic syndrome, a great effort is made to find new treatments with potential to preserve insulin sensitivity, or even counteract development of obesity and type 2 diabetes. There are three principal possibilities how the adipose tissue biology can contribute to this goal: 1) induction of UCP1-dependent energy dissipation in brown adipose tissue; 2) conversion of white adipose depots to brown-like tissue (i.e. "browning"); and 3) stimulation of UCP1-independent thermogenesis in white adipose tissue. This thesis is based on two published works and one article under preparation. Generaly, it is focused on three different approaches targeting the above mentioned processes in adipose tissue of laboratory mouse: 1) diet supplementation with bile acids; 2) combination treatment of ω-3 polyunsaturated fatty acids and calorie restriction; and 3) cold exposure. In the experiments with administration of bile (specifically chenodeoxycholic) acid to mice, we confirm specific induction of UCP1 in both brown and subcutaneous white adipose tissue, as well as reversion of obesity in the response to the treatment. Nevertheless, most of the acute beneficial effects are mediated by...

Avaliação da influência do tecido adiposo perivascular (PVAT) na reatividade vascular da aorta de ratos com insuficiência cardíaca submetidos ao treinamento físico aeróbio e resistido. / Evaluation of the influence of perivascular adipose tissue on the vascular reactivity of the aorta of rats with heart failure submitted to aerobic and resistance training.

Fontes, Milene Tavares

15 February 2019

O tecido adiposo perivascular (PVAT) libera substâncias dilatadoras e constritoras, sendo que as dilatadoras se sobrepõem, exercendo efeito anticontrátil. Esse efeito está prejudicado na presença de algumas doenças cardiovasculares. Na insuficiência cardíaca (IC) ocorrem danos ao sistema vascular, todavia nenhum estudo avaliou a função do PVAT na IC. A utilização do treinamento físico (TF) tem sido recomendada com terapia não farmacológica eficiente em promover benefícios ao sistema cardiovascular. As recomendações sugerem que o exercício resistido seja adicionado aos programas de TF para pacientes com IC, podendo, assim, o treinamento combinado (TC; aeróbio e resistido) fornecer benefícios adicionais à saúde cardiovascular. Com isso, o objetivo do presente trabalho foi avaliar o papel do PVAT na reatividade vascular da aorta torácica dos ratos com IC e, após, avaliar a influência do TC na resposta anticontrátil do PVAT da aorta torácica e abdominal de ratos saudáveis e com IC. Ratos Wistar foram submetidos à oclusão da artéria coronária descendente ou falso operado (SO). Após 4 semanas, para o estudo sem TC os animais foram mantidos sem intervenção, e para o estudo que envolvia o TC foram divididos em sedentários (SOs e ICs) e treinados (SOt e ICt, esteira e escada, 5 x/sem., 8 sem.). Anéis da aorta torácica e/ou abdominal com (E+) e sem endotélio (E-), na presença (PVAT+) ou na ausência do PVAT (PVAT-), foram montados em miógrafo de arame e curvas concentração-resposta à fenilefrina (FEN, 10-910-5M) foram realizadas. A IC promoveu aumento da contração FEN nos anéis E+/PVAT- da aorta torácica quando comparado aos SO, e o efeito anticontrátil do PVAT foi prejudicado pela IC nos anéis E+/PVAT+ e E-/PVAT+. O prejuízo no efeito anticontrátil do PVAT foi acompanhado por maior atividade da ECA1 e da expressão dos AT1R, AT2R e MASR no PVAT dos animais com IC. O antagonismo dos AT1R, AT2R e MASR promoveram redução da resposta contrátil nos anéis E+/PVAT- nos IC, nos anéis E+/PVAT+ essa redução foi superior apenas para o antagonismo do AT1R e AT2R. A produção de espécies reativas de oxigênio (ERO) na aorta torácica e PVAT dos animais IC foi maior que nos SO, acompanhada por uma menor biodisponibilidade de NO. O TC aumentou a capacidade física nos SOt e ICt. Na aorta torácica o TC reverteu parte do prejuízo da função anticontrátil do PVAT, aumentou a expressão do PRDM-16 e ESPST-1 que estavam reduzidos na IC, além disso, melhorou a biodisponibilidade de NO no PVAT pela maior expressão da eNOS, β3-AR e AMPk1/2α, aumentou a concentração de adiponectina e reduziu marcadores pró-inflamatórios. Na aorta abdominal, o efeito anticontrátil do PVAT não estava presente e o TC reverteu a disfunção endotelial dos animais com IC, aumentando a biodisponibilidade de NO e a expressão da eNOS na aorta. Em conclusão, na IC os AT1R e AT2R contribuem tanto para a disfunção endotelial quanto do PVAT, reduzindo a biodisponibilidade de NO e aumentando a produção de ERO. O TC melhorou a função anticontrátil na aorta torácica, por benefícios na via de sinalização α3-AR/Adiponectina/AMPK/eNOS, modificando o perfil morfológico e inflamatório do PVAT. Já na aorta abdominal, o TC melhorou a função vascular, aumentando a biodisponibilidade de NO. / Perivascular adipose tissue (PVAT) releases dilating and constricting substances, and the dilators overlap, exerting an anti-contractile effect. This effect is impaired in the presence of some cardiovascular diseases. In heart failure (HF) damage to the vascular system occurs, however, no study has evaluated the function of PVAT in HF. The use of physical training (PT) has been recommended with non-pharmacological therapy effective in promoting cardiovascular system benefits. The recommendations suggest that resistance exercise be added to the PT programs for patients with HF, thus, combined training (CT, aerobic and resisted) may provide additional cardiovascular health benefits. The objective of the present study was to evaluate the role of PVAT in the vascular reactivity of the thoracic aorta of HF rats and, after that, to evaluate the influence of CT in the anti-contractile response of PVAT of the thoracic and abdominal aorta of healthy and HF rats. Wistar rats were submitted to descending coronary artery occlusion or false operated (SO). After 4 weeks, for the study without CT, the animals were kept without intervention, and for the study involving the CT were divided into sedentary (SOs and HFs) and trained (SOt and HFt, treadmill and ladder, 5 x/8 sem.). In the presence (PVAT+) or in the absence of the PVAT (PVAT-), thoracic and/or abdominal aorta with (E+) and without endothelium (E-), were mounted on wire myograph and concentration-response curves to phenylephrine, (PHE, 10-9-10-5M) were performed. HF promoted an increase in PHE contraction in the E+/PVAT- rings of the thoracic aorta when compared to SO, and the ani-contratile effect of PVAT was impaired by HF in the E+/PVAT+ and E-/PVAT+ rings. The impairment in the anti-contratile effect of PVAT was accompanied by increased activity of ECA1 and the expression of AT1R, AT2R and MASR in the PVAT of animals with HF. The AT1R, AT2R and MASR antagonism promoted a reduction of the contractile response in the E+/PVAT- rings in the HF, in the E+/PVAT+ rings, this reduction was superior only to the antagonism of AT1R and AT2R. The production of reactive oxygen species (ROS) in the thoracic aorta and PVAT of the HF animals was higher than in the SO, accompanied by a lower NO bioavailability. CT increased physical capacity in SOt and HFt. In the thoracic aorta CT reversed part of the impairment of PVAT anti-contratile function, increased the expression of PRDM-16 and ESPST-1 that were reduced in HF, in addition, it improved the bioavailability of NO in PVAT by the greater expression of eNOS, β3-AR and AMPk1/2 α, increased the concentration of adiponectin and reduced proinflammatory markers. In the abdominal aorta, the anti-contratile effect of PVAT was not present and CT reversed the endothelial dysfunction of HF animals, increasing NO bioavailability and eNOS expression in the aorta. In conclusion, in HF, AT1R and AT2R contribute to both endothelial and PVAT dysfunction, reducing NO bioavailability and increasing ROS production. CT improved the anti-contractile function in the thoracic aorta due to benefits in the β3-AR/Adiponectin/AMPK/eNOS signaling pathway, modifying the morphological and inflammatory profile of PVAT. Already in the abdominal aorta, the CT improved the vascular function, the CT improved the vascular function, increasing the bioavailability of NO.

Função Mitodocondrial e Fatores de risco cardiovasculares em mulheres com obesidade submetidas a treinamento físico / Mitochondrial function and cardiovascular risk factors in obese women undergoing physical training

Brandão, Camila Fernanda Costa e Cunha Moraes

18 January 2019

A obesidade, doença multifatorial, ocasiona inúmeros distúrbios no metabolismo lipídico e energético, provocando disfunção na bioenergética mitocondrial. A partir deste fato, o presente estudo teve como hipóteses que: o desequilíbrio na bioenergética mitocondrial e as alterações metabólicas causadas pela obesidade são terapeuticamente modificados com o treinamento físico. Dessa maneira, o objetivo do estudo foi avaliar a capacidade oxidativa e conteúdo mitocondrial em tecido adiposo branco, marcadores de doenças cardiosculares (esfingolipídios e N-óxido de trimetilamina, TMAO) e as alterações na composição corporal, desempenho físico e taxa metabólica de repouso (TMR) de mulheres com obesidade submetidas a treinamento físico combinado. A casuística do presente trabalho foi composta de 14 mulheres adultas jovens com diagnótico clínico de obesidade (IMC 33±3 kg/m² e idade 35±6 anos). Foram submetidas a um programa de treinamento físico combinado (exercícios aeróbios e força alternadamente, 55 min à 75-90% da frequência cardíaca máxima, 3 vezes por semana, durante 8 semanas). Todas as participantes foram avaliadas antes e após a intervenção com o treinamento, quanto a: composição corporal, TMR, oxidação de substratos (carboidrato e lipídios) e coeficiente respiratório (QR), desempenho físico, capacidade oxidativa (respiração acoplada: VADP/VOLIGO, e respiração desacoplada: VOLIGO/VCCCP) e conteúdo mitocondrial (enzima citrato sintase, CS) em tecido adiposo branco, nível de esfingolípidios, TMAO e precursores plasmáticos. Os dados foram analisados pelo test t pareado ou Wilcoxon (as pacientes foram consideradas controle de si próprio), após determinação da normalidade da amostra, considerado nível de significância p<= 0,05. Após a intervenção (treinamento físico combinado), houve o aumento da TMR, oxidação de lipídios e desempenho físico, com redução da oxidação de carboidratos e QR, mas não houve perda de peso e alteração da composição corporal. Após o treinamento combinado houve, o aumento da atividade da enzima CS (marcador de conteúdo mitocondrial) e redução à respiração desacoplada (VOLIGO/VCCCP). No plasma, o treinamento físico foi capaz de reduzir os níveis de esfingolipídios e TMAO (fatores de risco cardiovasculares). Também foram encontradas correlações positivas entre TMR, oxidação de lipídios e desempenho físico com CS e negativamente correlacionado com respiração desacoplada. Concluindo, o treinamento físico em mulheres com obesidade aumentou o metabolismo energético, com aumento da TMR, conteúdo e grau de acoplamento mitocondrial, aumentou o desempenho físico e reduziu fatores de risco cardiovasculares (TMAO), independente da perda de peso. / The obesity, a multifactorial disease, causes various metabolic disorders in lipid and energy metabolism, may induce mitochondrial bioenergetic dysfunction. From this, the present study hypothesized that: mitochondrial bioenergetics dysfunction and metabolic problems caused by obesity are be therapeutically modified with physical training. Thus, the objective of study was to evaluated: the oxidative capacity and mitochondrial content in white adipose tissue, markers of cardiovascular diseases (sphingolipids and trimethylamine N-oxide, TMAO) and changes of body composition, physical performance and resting metabolic rate (TMR) of obese women submitted to combined physical training. The present study was composed of 14 young women with obesity (BMI 33 ± 3 kg/m² and age 35 ± 6 years old). They underwent a combined physical training program (aerobic exercises and strength alternately, 55 min at 75-90% of maximal heart rate, 3 times a week, for 8 weeks). All participants were evaluated before and after the intervention: body composition, TMR, substrates oxidation (carbohydrate and lipids) and respiratory coefficient (RQ), physical performance, oxidative capacity (by mitochondrial respiration - Couple: VADP/VOLIGO; Uncoupling: VOLIGO/VCCCP) and Citrate Sinthase activity in white adipose tissue, level of sphingolipids, TMAO and precursors from plasma. Data analysis were made by paired t test or Wilcoxon, after normality determination of the sample, with level of significance p <0.05. After intervention with combined physical training, there was an increase in TMR, lipid oxidation and physical performance, reduced carbohydrate oxidation and RQ, but did not cause weight loss and changes of body composition. In adipose tissue, physical activity increased CS activity (mitochondrial content marker) and reduced uncoupling respiration (VOLIGO/VCCCP). In plasma, physical training was able to reduce levels of sphingolipids and TMAO (cardiovascular risk factors). In addition, positive correlations were found between, TMR, lipid oxidation and physical performance with CS and negatively correlation with uncoupling respiration. Therefore, physical training in obese women improve energy metabolism, with increased TMR, content and degree of mitochondrial coupling, increased physical performance and reduced cardiovascular risk factors, regardless of weight loss.

Adipose tissue

Ceramidas. Esfingomielina.,

Ceramide

Energy metabolism

Exercício físico

Metabolismo energético

Mitochondria

Mitocondria

Obesidade

Obesity

Physical exercise

Sphingomyelin.

Tecido adiposo

TMAO

TMAO