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Rôle du tissu adipeux dans les infections respiratoires par le virus Influenza ou la bactérie streptococcus pneumoniae / Role of adipose tissue in respiratory infections with Influenza virus or bacteria streptococcus pneumoniaeAyari, Asma 28 June 2018 (has links)
Longtemps décrit comme un simple tissu de réserve énergétique, le tissu adipeux blanc est, depuis l’identification de la leptine en 1994, considéré comme un véritable organe endocrine. En effet, ce tissu secrète de nombreuses hormones et cytokines agissant de manière paracrine et endocrine pour contrôler le métabolisme énergétique. Par ailleurs, en plus des préadipocytes et des adipocytes, le tissu adipeux blanc contient également des cellules immunes innées et adaptatives ; lui conférant ainsi un rôle important dans le développement et le contrôle de l’immunité. Cependant, le rôle joué par le tissu adipeux blanc dans les infections - notamment pulmonaires - reste encore peu étudié. C’est dans ce cadre général que s’est inscrit ce travail de Thèse. La susceptibilité accrue des individus obèses (expansion du tissu adipeux blanc) à l’infection par le virus de la grippe (influenza) est largement étayée dans la littérature. Nous avons évalué l’impact de l’infection par le virus influenza sur le tissu adipeux blanc, chez des souris minces et des souris obèses. Nos résultats montrent que, de manière inattendue, le virus est détecté dans les tissus adipeux, sous-cutané (inguinal) et viscéral (périgonadique), de souris infectées par voie intra-nasale (détection du génome viral par RT-qPCR). La présence de virus dans le tissu adipeux est associée à l’augmentation de la sécrétion de cytokines pro- et anti-inflammatoires, à la diminution de l’expression de gènes impliqués dans la lipolyse et la lipogénèse, et à l’augmentation de l’expression des gènes impliqués dans l’induction d’une réponse immune anti-virale. De manière intéressante, l’infection par le virus influenza est associée au brunissement du tissu adipeux sous-cutané chez les souris minces. Chez les souris obèses, l’infection par le virus de la grippe n’induit pas l’effet dépôt spécifique observé chez la souris mince et ne montre pas de brûnissement au niveau du tissu adipeux sous-cutané 7 jours p.i. In vitro, nous montrons que le virus influenza peut infecter les préadipocytes et les adipocytes (lignée murine et cellules primaires humaines). Cependant, alors que le virus effectue la totalité de son cycle dans l’adipocyte, le préadipocyte libère très peu, voire pas, de nouveaux virions infectieux (PCR, transcriptomique, technique de plages de lyse, microscopie confocale et électronique). Ainsi nos résultats, très originaux, identifient le tissu adipeux blanc comme un nouveau tissu cible de l’infection par le virus de la grippe, in vivo. Au sein de ce tissu, les préadipocytes et les adipocytes sont potentiellement infectés par le virus, comme le montrent nos données in vitro, les adipocytes seuls permettant la production de nouvelles particules infectieuses.Contrairement à l’infection grippale, les données épidémiologiques et/ou expérimentales concernant la susceptibilité des obèses à l’infection par la bactérie Streptococcus pneumoniae sont contradictoires, du fait de l’utilisation de différents modèles d’obésité d’origine génétique et de sérotypes de pneumocoques. Dans ce projet, nous avons utilisé un modèle d’obésité d’origine nutritionnelle ; le modèle de souris nourries par un régime enrichi en lipides. Nous montrons que les souris obèses infectées (sérotype Sp1) développent un syndrome de type méningite, mortel, tandis que les souris minces contrôlent l’infection. Si les réponses pulmonaires à l’infection sont comparables entre les souris minces et obèses (dénombrement des colonies bactériennes, histologie, PCR, ELISA, cytométrie en flux), le nombre de bactéries dans le cerveau est significativement plus élevé chez les souris obèses, associé à une altération de la perméabilité de la barrière hématoencéphalique [...] / Since the identification of leptin in 1994, the white adipose tissue (WAT) is no longer considered to solely be an inert tissue storing fat. As an endocrine organ, the adipose tissue synthesizes and secretes several hormones and cytokines involved in the control of whole-body metabolism. In addition, besides preadipocytes and adipocytes, WAT also contains innate and adaptive immune cells; thereby contributing to the development and control of immunity. However, the role played by the adipose tissue during infections - notably during pulmonary infections, such as those resulting from influenza virus or Streptococcus pneumoniae infections - has barely been investigated. This defines the general scope of this work. Epidemiological and experimental data convincingly report that obese individuals are more susceptible to influenza infection. During this project, we therefore questioned whether influenza infection may impact on adipose tissues, both subcutaneous (inguinal, SCAT) and visceral (perigonadal, EWAT) depots, in lean and high-fat diet-induced obese mice. We unexpectedly showed that influenza virus is detected in SCAT and EWAT (quantification of the viral genome by RtqPCR) and that this was associated with drastic changes in the tissue such as: increased secretion of pro- and anti-inflammatory cytokines, decreased expression of genes involved in lipogenesis and lipolysis, as well as increased expression of genes related to the induction of anti-viral immunity. Interestingly enough, influenza infection was associated with the development of brown-like adipocytes in the SCAT, only in lean animals. Moreover, we demonstrated in vitro that preadipocytes and adipocytes (murine cell-line and human primary cells) are permissive to infection, yet with different outcomes. Indeed, only adipocytes allowed the release of new infectious particles (RtqPCR, transcriptomics, quantification of infectious particules on MDCK cells, confocal and transmission electron microscopy). Altogether, our findings revealed, for the first time, that the white adipose tissue, an organ at the crossroads of metabolism and immunity, is deeply affected by influenza infection and might thus be undervalued in influenza pathophysiology.In opposite to influenza infection, the impact of obesity on the outcome of Streptococcus pneumoniae (S.p.) infection remains uncertain, due to the different models (genetically-based obesity, and bacterial strains) used. During this work, we investigated S. pneumoniae (Sp1 strain, sublethal dose) infection in lean and high-fat diet-induced obese mice. We showed that obese mice died from sublethal S. pneumoniae infection, compared to lean animals. The increased mortality induced by infection did not result from impaired pulmonary response but rather from the development of a meningitis-like syndrom likely resulting from an increased bacterial dissemination through the bloodbrain barrier into the brain. We propose that the model of dietary obesity induced by consumption of fat-enriched diet, may be envisaged as a novel and valuable experimental model of memingitis to study Streptococcus pneumoniae travel through the blood-brain barrier and the subsequent immune consequences.
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Efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos com diabetes mellitus tipo 1 / Effect of resistance training and diet supplementation with leucine in the adipose tissue of type 1 diabetic rats.Ribeiro, Henrique Quintas Teixeira 22 June 2016 (has links)
A diabetes mellitus (DM) é considerada uma das principais epidemias mundiais deste século, sendo responsável direta ou indiretamente pelo óbito de 123 mil diabéticos no Brasil em 2010. Na diabetes mellitus do tipo 1 (DM1), que corresponde a 5-10% dos casos, há ausência ou um relativo déficit de insulina circulante, acarretando aumento na glicemia e em produtos glicosilados, que por sua vez, podem estar relacionados à perda de visão e doenças cardiovasculares. Além disso, a marcante perda de tecido adiposo verificada na DM1 também pode acarretar hipercolesterolemia e esteatose hepática, além de possivelmente contribuir para a inflamação crônica característica da doença. Neste contexto, o objetivo principal do presente estudo foi examinar o efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos portadores de diabetes mellitus tipo 1. Para a realização do estudo, ratos Wistar machos foram aleatoriamente distribuídos em quatros grupos: i) Grupo DA (controle) (n=8) - sem treinamento (sedentário) e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); ii) Grupo DL (n=8) - sem treinamento (sedentário) e suplementado com leucina (água ad libitum); iii) Grupo DTA (n=8) - com treinamento de força e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); iv) Grupo DTL (n = 8) - com treinamento de força e suplementado com leucina (água ad libitum). Após 12 semanas de intervenção, os animais foram eutanasiados. Foram avaliados os seguintes parâmetros: lactato, tolerância à glicose, sensibilidade à insulina, consumo semanal de ração e água, evolução semanal do peso total dos animais, peso total do tecido adiposo e dos diferentes coxins; no soro: triacilglicerol (TAG), lipoproteína de alta densidade (HDL), colesterol total, TNF-α, IL-6, IL-10, IL-1β, leptina, adiponectina e insulina; no tecido adiposo retroperitoneal: expressão gênica de mTOR, Akt, 4E-BP, eif4E, p70s6k, PPARy, LPL, leptina, adiponectina e CEBP-α; concentração total de TNF-α, IL-6, IL-10, e IL-1β. A tolerância à glicose, o consumo de ração e água, a concentração total do TAB e do TARP, assim como a expressão gênica de mTOR, 4E-BP1, eif4E, p70S6k, PPARγ e CEBP-α encontraram-se melhorados nos grupos DL, DTA e DTL em comparação ao grupo DA; e as concentrações de HDL, colesterol total, IL-10 e adiponectina no soro, bem como a expressão gênica de adiponectina e a concentração total de IL-10 no TARP apresentaram-se aumentadas somente nos grupos DTA e DTL quando comparados ao grupo DA. Como conclusão, ambas intervenções foram capazes de atenuar as alterações fisiológicas verificadas na DM1, dentre eles as perdas excessivas do TAB. No entanto, por servir de estímulo para uma maior síntese de citocinas e hormônios antiinflamatórios por parte TAB, o treinamento de força foi o principal responsável pela redução da inflamação sistêmica dos animais. / Diabetes mellitus (DM) is considered one of the most important world epidemics of this century, being responsible directly or indirectly for the death of 123000 diabetics in Brazil in 2010. In type 1 diabetes (DM1), which corresponds to 5-10% of cases, there is absence or relative deficit of circulating insulin, leading to an increased glycemia and glycosilated products, which might be related to loss of vision and cardiovascular diseases. Furthermore, the marked loss of white adipose tissue (WAT) associated with DM1 might induce liver steatosis and hypercholesterolemia, besides possibly contributing to an increased chronic systemic inflammation. In this context, the main objective of the present study was examine the effect of resistance training and supplementation with leucine in the adipose tissue of type 1 diabetic rats. To conduct this study, Wistar male rats were randomly distributed in 4 groups: i) DA group (control of the experiment) (n=8) - without RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); ii) DL group - without RT and supplemented with leucine (water ad libitum); iii) DTA group (n=8) - with RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); iv) DTL group - with RT and supplemented with leucine (water ad libitum). After 12 weeks of intervention, animals were euthanized. The following parameters were analyzed: blood lactate, glucose tolerance, insulin sensitivity, weekly consumption of chow and water, evolution of total weight, WAT total weight and depots; concentration of triacylglycerol, high density lipoprotein, total cholesterol, TNF-α, IL-6, IL-10, IL-1β, adiponectin, leptin and insulin in the serum; gene expression of mTOR, 4E-BP1, eif4E, p70S6k, PPARγ, CEBP-α, LPL, leptin and adiponectin; in addition to the concentration of TNF-α, IL-6, IL-10, and IL- 1β in the retroperitoneal adipose tissue. Glucose tolerance, weekly consumption of chow and water, WAT and RPAT total weight, such as gene expression of mTOR, Akt, 4E-BP1, eif4E, p70S6k, PPARγ and CEBP-α were improved in DL, DTA and DTL groups in comparison with DA group; and the concentrations of HDL, total cholesterol, IL-10 and adiponectin in the serum, as well as gene expression of adiponectin and total concentration of IL-10 in the serum were increased only in DTA and DTL groups when compared to DA group. In conclusion, both interventions were capable of improving some DM1 physiological alterations, including the excessive loss of WAT. However, because resistance training stimulates an increased synthesis of antiinflammatory cytokines and hormones by WAT, this intervention might be the main responsible by the reduction of systemic inflammation of the animals.
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The Role of Tumor and Tumor Microenvironment on Breast Cancer-Associated Adipocyte PlasticityPearce, Janina V 01 January 2019 (has links)
Cancer-associated cachexia is a condition defined by a sustained net-negative energy imbalance. Although the different types of adipose tissue – white, beige, and brown – have been implicated in contributing to cancer-associated cachexia, the mechanisms of these maladaptive changes and their impact on whole-body energy expenditure have not been fully elucidated. Using breast cancer as our model, we demonstrate white adipose tissue browning in murine and human breast cancer; furthermore, we demonstrate that this effect is extremely localized and takes place early in tumor progression. We utilized in vitro cell culture techniques and demonstrate that cancer secreted factors and cross-talk with white adipocytes decrease expression of classic white adipose tissue-related genes. We also demonstrate in murine and human culture models that cancer secreted factors reduce white adipocyte lipid droplet size, and cross-talk between cancer cells and adipocytes results in an increase in lipolysis-related gene expression. Interestingly, our results strongly suggest that in mice, neither cancer secreted factors nor cross talk with adipocytes can induce white adipose tissue browning, indicate that this process likely occurs independently of direct cancer interactions with local white adipocytes. We demonstrate that interleukin 6, a cytokine with previous implications in white adipose tissue browning, induces interleukin 6-mediated signaling; however, that signaling alone is not enough to directly induce white adipose tissue browning. We present preliminary data suggesting that immune cell population shifts within the white adipose tissue of mice with breast cancer tumors may be source of white adipose tissue browning. We show that the Virginia Commonwealth University Health System has an identifiable population of patients with cancer with what we hypothesize as maladaptive thermogenic adipose tissue activity, and discuss ongoing experiments aimed at understanding the implications of these changes on whole body energy expenditure in human patients. Lastly, in a case of autoimmune diabetes mellitus in the setting of an extra-adrenal paraganglioma, we demonstrate that the interaction between cancer and whole-body metabolism is multifaceted. Together, these experiments demonstrate that adipose tissue plasticity occurs in breast cancer (and other cancers), and that different drivers for individual changes exist within the tumor microenvironment. We predict that further exploration of the exact mechanisms and translational implications will provide useful information to lead to new therapeutic treatments for patients with cancer-associated cachexia.
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The Effects of Testicular Nerve Transection and Epididymal White Adipose Tissue Lipectomy on Spermatogenesis in Syrian HamsterSpence, Jeremiah E 30 July 2008 (has links)
Previous investigators demonstrated that epididymal white adipose tissue (EWAT) lipectomy suppressed spermatogenesis and caused atrophy of the seminiferous tubules. EWAT lipectomy, however, may disrupt testicular innervation, which reportedly compromises testicular function. To resolve this confound and better clarify the role of EWAT in spermatogenesis, three experimental groups of hamsters were created in which: i.) the superior and inferior spermatic nerves were transected (SSNx) at the testicular level, ii.) EWAT was extirpated (EWATx), and iii.) testicular nerves and EWAT were left intact (SHAM controls). It was hypothesized that transection of the superior and inferior spermatic nerves would disrupt normal spermatogenesis. The findings indicate a significant reduction in spermatogenic activity and marked seminal tubule atrophy within the EWATx testis, as compared to the SSNx and controls testes, which did not differ significantly from each other. From these data, it is concluded that EWAT, and not testicular innervation, is central to normal spermatogenesis.
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The origins and heterogeneity of adipose tissue : investigating the role of the Wilms' tumour 1 (Wt1) geneCleal, Louise Kathleen January 2018 (has links)
Largely as a consequence of the ongoing obesity epidemic, research into adipose tissue biology has increased substantially in recent years. Worldwide, the number of people classed as overweight or obese is growing, and this represents a major public health concern. Adipose tissue is broadly divided into two types; white and brown. Whilst white adipose tissue (WAT) functions to store and mobilise triglycerides, brown adipose tissue burns chemical energy to generate heat. WAT is further divided into visceral “bad” fat and subcutaneous “good” fat depots, and it is an increase in the former that is linked to obesity-associated diseases. As well as adipocytes, several other cell types including haematopoietic and endothelial are found within adipose tissue, and comprise the stromal vascular fraction (SVF). Adipocyte precursor cells (APCs) also reside within the SVF and are essential for the maintenance and expansion of adipose tissue. The protein encoded by the Wilms’ tumour 1 (Wt1) gene is predominantly known to function as a transcription factor, but also has a role in post-transcriptional processing. Deletion of Wt1 in adult mice results in a considerable loss of fat tissue. Moreover, recent work has revealed that a proportion of the APCs from all visceral WAT depots express Wt1, therefore revealing heterogeneity within the APC population. Additionally, visceral WAT depots are encapsulated by a WT1 expressing mesothelial layer, which has its origins in the lateral plate mesoderm (LPM), and can give rise to mature adipocytes. Lineage tracing has demonstrated that a significant proportion of the mature adipocytes in all adult visceral WAT depots (but not subcutaneous) are derived from cells that express Wt1 in late gestation. These findings uncovered key ontogenetic differences between visceral and subcutaneous WAT and led us to ask whether Wt1 functions in visceral adipose tissue biology. Preliminary work has shown that adipocytes derived from Wt1 expressing (Wt1+) precursor cells have fewer, larger lipid droplets than those derived from non-Wt1 expressing (Wt1-) precursors. In this thesis, this heterogeneity is explored further using a Wt1GFP/+ knock-in mouse. When Wt1+ and Wt1- APCs are cultured separately, the Wt1+ population differentiate into adipocytes more readily. Moreover, the Wt1+ APCs are more proliferative than the Wt1-. Preliminary results also suggest that the Wt1+ APCs may secrete a factor(s) that causes the Wt1- APCs to exhibit improved adipogenic differentiation, a result that is supported by data from comparative transcriptomic analysis. Finally, the percentage of APCs decreases when mice are fed a high fat diet. Interestingly, this decrease is more pronounced for the Wt1+ population. Therefore, it appears that as well as exhibiting differing behaviours in vitro, the Wt1+ and Wt1- populations respond differently to physiologically relevant conditions in vivo. Whilst the LPM is a major source of visceral WAT, the origin of subcutaneous WAT is currently unknown. Here, the Prx1-Cre and Prx1-CreERT2 mouse lines are used to investigate this. It is shown that the majority of subcutaneous WAT adipocytes and APCs are labelled by Prx1-Cre, however this is not the case for most of the visceral WAT depots. The exception to this is the pericardial (heart fat) depot, in which approximately 70% of the adipocytes and 40% of the APCs are labelled. Moreover, a proportion of the Prx1-Cre labelled pericardial APCs also express Wt1, therefore suggesting additional heterogeneity. Preliminary results show that this heterogeneity may have functional consequences, at least in vitro. Additionally, lineage tracing studies suggest that the somatic LPM may be one source of subcutaneous WAT and pericardial visceral WAT Finally, it is shown that the conditional deletion of Wt1 in the Prx1-Cre lineage results in abnormal diaphragm development. Congenital diaphragmatic hernia (CDH) is severe birth defect, the etiology of which is not well understood. Here, a new model of CDH has been developed, and the cellular and molecular mechanisms responsible for the defect in this model are investigated.
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O volume celular do adipócito contribui para a heterogeneidade funcional do tecido adiposo branco / The adipocyte size contributes to the functional heterogeneity of white adipose tissueNatalie Carolina de Castro 29 April 2010 (has links)
O tecido adiposo já foi considerado um tecido metabolicamente pouco ativo, no entanto, os mais recentes avanços mostram que ele desempenha uma função importante no controle da homeostase energética. Baseado neste conceito, este trabalho objetivou caracterizar o perfil morfológico e metabólico de adipócitos isolados de três diferentes coxins adiposos, subcutâneo, peri-epididimal, retro-peritoneal (SC, PE e RP respectivamente). Os adipócitos dos diferentes coxins foram coletados e submetidos a análise morfológica, aos ensaios metabólicos e análise da expressão de enzimas envolvidas no metabolismo lipídico e glicídico. Os resultados mostraram diferença estatisticamente significativa no volume dos adipócitos das três regiões entre si (p<0,05), maior capacidade lipogênica dos adipócitos RP. Paralelamente, o tecido SC, mostrou maior expressão de enzimas envolvidas na via lipogênica (p< 0,05; SC vs PE e RP). / The adipose tissue was considered to be a little active metabolic tissue, however, the most recent advances show that it plays an important function in the control of the energy homostasis. Based on this concept, this work aimed to characterize the morphology and metabolism of isolated adipocytes of three different depots, like: subcutaneous, periepididymal, retroperitoneal (SC, PE and RP) . The adipocytes of the different depots had been collected and submitted to morphologic analysis, metabolic assays and to analysis of the enzymes expressions involved on lipids and glucose metabolism. The results showed statistical significant difference on volume of the adipocytes among the three different depots (p< 0, 05), high lipogenic capacity of RP adipocytes and higher expression of proteins involved in lipogenic patways of SC adipocytes (p<0, 05).
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Efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos com diabetes mellitus tipo 1 / Effect of resistance training and diet supplementation with leucine in the adipose tissue of type 1 diabetic rats.Henrique Quintas Teixeira Ribeiro 22 June 2016 (has links)
A diabetes mellitus (DM) é considerada uma das principais epidemias mundiais deste século, sendo responsável direta ou indiretamente pelo óbito de 123 mil diabéticos no Brasil em 2010. Na diabetes mellitus do tipo 1 (DM1), que corresponde a 5-10% dos casos, há ausência ou um relativo déficit de insulina circulante, acarretando aumento na glicemia e em produtos glicosilados, que por sua vez, podem estar relacionados à perda de visão e doenças cardiovasculares. Além disso, a marcante perda de tecido adiposo verificada na DM1 também pode acarretar hipercolesterolemia e esteatose hepática, além de possivelmente contribuir para a inflamação crônica característica da doença. Neste contexto, o objetivo principal do presente estudo foi examinar o efeito do treinamento de força e suplementação da dieta com leucina no tecido adiposo de ratos portadores de diabetes mellitus tipo 1. Para a realização do estudo, ratos Wistar machos foram aleatoriamente distribuídos em quatros grupos: i) Grupo DA (controle) (n=8) - sem treinamento (sedentário) e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); ii) Grupo DL (n=8) - sem treinamento (sedentário) e suplementado com leucina (água ad libitum); iii) Grupo DTA (n=8) - com treinamento de força e suplementado com uma mistura de aminoácidos não-essenciais (água ad libitum); iv) Grupo DTL (n = 8) - com treinamento de força e suplementado com leucina (água ad libitum). Após 12 semanas de intervenção, os animais foram eutanasiados. Foram avaliados os seguintes parâmetros: lactato, tolerância à glicose, sensibilidade à insulina, consumo semanal de ração e água, evolução semanal do peso total dos animais, peso total do tecido adiposo e dos diferentes coxins; no soro: triacilglicerol (TAG), lipoproteína de alta densidade (HDL), colesterol total, TNF-α, IL-6, IL-10, IL-1β, leptina, adiponectina e insulina; no tecido adiposo retroperitoneal: expressão gênica de mTOR, Akt, 4E-BP, eif4E, p70s6k, PPARy, LPL, leptina, adiponectina e CEBP-α; concentração total de TNF-α, IL-6, IL-10, e IL-1β. A tolerância à glicose, o consumo de ração e água, a concentração total do TAB e do TARP, assim como a expressão gênica de mTOR, 4E-BP1, eif4E, p70S6k, PPARγ e CEBP-α encontraram-se melhorados nos grupos DL, DTA e DTL em comparação ao grupo DA; e as concentrações de HDL, colesterol total, IL-10 e adiponectina no soro, bem como a expressão gênica de adiponectina e a concentração total de IL-10 no TARP apresentaram-se aumentadas somente nos grupos DTA e DTL quando comparados ao grupo DA. Como conclusão, ambas intervenções foram capazes de atenuar as alterações fisiológicas verificadas na DM1, dentre eles as perdas excessivas do TAB. No entanto, por servir de estímulo para uma maior síntese de citocinas e hormônios antiinflamatórios por parte TAB, o treinamento de força foi o principal responsável pela redução da inflamação sistêmica dos animais. / Diabetes mellitus (DM) is considered one of the most important world epidemics of this century, being responsible directly or indirectly for the death of 123000 diabetics in Brazil in 2010. In type 1 diabetes (DM1), which corresponds to 5-10% of cases, there is absence or relative deficit of circulating insulin, leading to an increased glycemia and glycosilated products, which might be related to loss of vision and cardiovascular diseases. Furthermore, the marked loss of white adipose tissue (WAT) associated with DM1 might induce liver steatosis and hypercholesterolemia, besides possibly contributing to an increased chronic systemic inflammation. In this context, the main objective of the present study was examine the effect of resistance training and supplementation with leucine in the adipose tissue of type 1 diabetic rats. To conduct this study, Wistar male rats were randomly distributed in 4 groups: i) DA group (control of the experiment) (n=8) - without RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); ii) DL group - without RT and supplemented with leucine (water ad libitum); iii) DTA group (n=8) - with RT and supplemented with a mixture containing non-essential amino acids (water ad libitum); iv) DTL group - with RT and supplemented with leucine (water ad libitum). After 12 weeks of intervention, animals were euthanized. The following parameters were analyzed: blood lactate, glucose tolerance, insulin sensitivity, weekly consumption of chow and water, evolution of total weight, WAT total weight and depots; concentration of triacylglycerol, high density lipoprotein, total cholesterol, TNF-α, IL-6, IL-10, IL-1β, adiponectin, leptin and insulin in the serum; gene expression of mTOR, 4E-BP1, eif4E, p70S6k, PPARγ, CEBP-α, LPL, leptin and adiponectin; in addition to the concentration of TNF-α, IL-6, IL-10, and IL- 1β in the retroperitoneal adipose tissue. Glucose tolerance, weekly consumption of chow and water, WAT and RPAT total weight, such as gene expression of mTOR, Akt, 4E-BP1, eif4E, p70S6k, PPARγ and CEBP-α were improved in DL, DTA and DTL groups in comparison with DA group; and the concentrations of HDL, total cholesterol, IL-10 and adiponectin in the serum, as well as gene expression of adiponectin and total concentration of IL-10 in the serum were increased only in DTA and DTL groups when compared to DA group. In conclusion, both interventions were capable of improving some DM1 physiological alterations, including the excessive loss of WAT. However, because resistance training stimulates an increased synthesis of antiinflammatory cytokines and hormones by WAT, this intervention might be the main responsible by the reduction of systemic inflammation of the animals.
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Potencial do treinamento físico aeróbio para a prevenção do diabetes tipo 2 induzido por dieta de cafeteria: papel do tecido adiposo branco. / Potential of aerobic exercise for the prevention of type 2 diabetes induced by cafeteria diet: role of white adipose tissueTalita Sayuri Higa 04 December 2012 (has links)
Evidências na literatura demonstraram que o aumento da adiposidade confere maior suscetibilidade ao desenvolvimento de diabetes tipo 2, pois o tecido adiposo branco (TAB) atua na regulação da homeostasia energética e da sensibilidade à insulina através da sua atividade endócrina e de interações com reguladores neuroendócrinos. O treinamento físico aeróbio tem sido fortemente recomendado para a prevenção e tratamento do diabetes tipo 2, pois promove adaptações no metabolismo energético que contribuem diretamente para a melhora da resposta glicêmica e para o controle de peso corporal. Embora esteja claro na literatura o papel do treinamento físico contra o desenvolvimento de distúrbios no metabolismo da glicose e obesidade, uma lacuna de conhecimento ainda existe quando buscamos informações a respeito da participação metabólica do TAB na prevenção do diabetes tipo 2 através do treinamento físico aeróbio. Dessa forma, o presente estudo teve como objetivo testar a hipótese de que o efeito protetor do treinamento físico contra o desenvolvimento de diabetes tipo 2 é mediado por adaptações funcionais do TAB. Para isso, foram utilizados camundongos alimentados com dieta normocalórica e de cafeteria submetidos ou não ao treinamento físico aeróbio. O treinamento físico aeróbio foi eficaz para a prevenção do diabetes tipo 2, e essa resposta foi associada à menor adiposidade corporal resultante do aumento da lipólise e da capacidade oxidativa do TAB induzido pela maior ativação via da AMPK/ACC / Evidence in the literature have shown that increased adiposity confers greater susceptibility to developing type 2 diabetes and white adipose tissue (WAT) acts in the regulation of energy homeostasis and insulin sensibility through its endocrine activity and interaction with neuroendocrine regulators. Aerobic physical training has been strongly recommended for the prevention and treatment of type 2 diabetes because it promotes adaptations in the energy metabolism that contribute directly to the improvement of glycemic metabolism and body weight control. Although it is clear in the literature the role of physical training against the development of disturbances in the glucose metabolism and obesity, the role of WAT to prevent type 2 diabetes through physical training was poorly investigated. Thus, the present study aimed to test the hypothesis that the protective effect of physical training against the development of type 2 diabetes is mediated by functional adaptations of WAT. For this, we used mice fed with control or cafeteria diet and submitted or not to aerobic physical training. The physical training was effective for the prevention of type 2 diabetes, and this response was associated with lower body fat due to increased lipolysis and oxidative capacity of WAT induced by the activation of AMPK/ACC
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Utilizace energetických substrátů v bílé a hnědé tukové tkáni při metabolickém syndromu / Utilization of energy substrates in white and brown adipose tissue in metabolic syndromeSeďová, Karolína January 2017 (has links)
1 Abstrakt Hnědá tuková tkáň je unikátní termoregulační orgán, její funkcí je přeměňovat energii ve formě protonového gradientu na energii tepelnou a zároveň snižovat efektivitu metabolismu. Její funkce se zdá být nadějí v léčbě metabolického syndromu a komplikací s ním spojených. Efekt hnědé tukové tkáně v léčbě MS však stále není objasněn a proto jsme chirurgicky odstranili tuto tkáň u potkanů, kteří trpí metabolickým syndromem, abychom objasnili důsledky extirpace na parametry metabolického syndromu. V této práci jsme sledovali aktivitu interskapulární tukové tkáně na parametry metabolického syndromu. Srovnávali jsme parametry mezi kmeny HHTg potkanů a kontrolním kmenem potkanů Wistar a pozorovali jsme nižší hmotnost potkanů kmene HHTg přes projevy ostatních parametrů metabolického syndromu, jako je dyslipidémie, inzulinová rezistence tukové tkáně, vyšší hodnoty NEMK v krvi. Zjistili jsme, že tito potkani mají významně vyšší aktivitu iBAT, jak v inkorporaci palmitátu do lipidů, tak ve spalování lipidů ve formě CO2 a zejména v nižším věku. Tato zjištění nás vedla k hypotéze, že iBAT by mohla mít zásadní vliv na parametry MS u neobézních potkanů. Extirpací iBAT u mladých potkanů, ani u potkanů v pokročilejším věku však neměla zásadní vliv na metabolismus ani na hmotnost. Dokonce došlo ke zlepšení některých...
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Vliv ektopické syntézy mitochondriálního odpřahujícího proteinu 1 v bílé tukové tkáni na celotělový metabolizmus u myší / Effect of ectopic synthesis of mitochondrial uncoupling protein 1 in white adipose tissue on whole-body metabolism in miceJanovská, Petra January 2014 (has links)
The prevention and treatment of obesity is a major problem of health care systems in affluent societies. Metabolism of adipose tissue belongs to the therapeutical targets, since accumulation of adipose tissue is the basis of obesity development. Experiments using transgenic mice with ectopic expression of brown- fat uncoupling protein 1 (UCP1) in white adipose tissue (WAT), verified a concept that obesity could be ameliorated by increasing energy expenditure in WAT. The goal of the experiments of this PhD Thesis was to characterize in detail the phenotype of this unique animal model of obesity resistance. We have shown that mitochondrial uncoupling in WAT resulted in increased oxidation of fatty acids (FA), in face of decreased lipogenesis and induced mitochondrial biogenesis in this tissue. In further studies, we aimed to modulate propensity to obesity be increasing FA oxidation in WAT in response to physiological stimuli. This could be accomplished in response to the combination treatment using n-3 polyunsaturated fatty acids (n-3 PUFA) and mild calorie restriction in mice fed high-fat diet. Synergistic induction of mitochondrial oxidative capacity and lipid catabolism in epididymal WAT was associated with suppression of low-grade inflammation of WAT, which is typical for obesity. The improvement of lipid...
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