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481	Transcriptional control of muscle cell excitation-contraction coupling:the role of activity and mitochondrial function Hänninen, S. L. (Sandra Lynn) 04 June 2019 (has links) Abstract Cardiac and skeletal muscle cell contraction is a result of excitation-contraction coupling (ECC), where an electrical signal leads to a rise in intracellular calcium levels and contraction. This process is carefully regulated to meet physiological demand and heavily dependent on an adequate energy supply. Disturbed ECC can have severe consequences on muscle cell function and underlies many cardiac and skeletal muscle pathologies. Cell stress, changing intracellular Ca2+ concentrations, and calcium signal dynamics can all play a role in the transcriptional regulation of genes involved in myocyte Ca2+-handling. In this thesis project, the transcriptional control of ECC was studied in skeletal and cardiac myocytes. Skeletal myocyte calsequestrin (CASQ1) was downregulated in a mouse model of mitochondrial myopathy and it contributed to the decreased SR Ca2+ load and impaired Ca2+ handling in Tfam-/- skeletal myocytes. In cultured neonatal cardiomyocytes, mitochondrial uncoupler FCCP-induced mitochondrial dysfunction led to downregulation of cardiac calsequestrin (CASQ2) and similarly impaired Ca2+ handling. Whereas there was no increase in reactive oxygen species (ROS) levels in Tfam-/- myocytes, cultured cells exposed to FCCP did display increased ROS, an effect that was counteracted by coexposure with the ROS scavenger (NAC). NAC attenuated FCCP-induced CASQ2 downregulation and restored Ca2+ handling. Therefore, mitochondrial dysfunction led to CASQ1/2 downregulation and impaired Ca2+ handling in these two cell types, but by different mechanisms. This project also looked at the role of Ca2+ dynamics on the transcriptional regulation of Ca2+ handling genes. Increased intracellular Ca2+ levels and β-adrenergic stimulation of cardiomyocytes activate Ca2+-calmodulin kinase II (CaMKII) and can trigger hypertrophic remodeling. It was found that CaMKII downregulated expression of the L-type Ca2+ channel α1c-subunit (Cacna1c) in cultured cardiomyocytes. Analysis of the Cacna1c promoter revealed that the transcriptional repressor DREAM bound to a putative downstream regulatory element. The results shed light on the complex interplay between muscle cell energetics and transcriptional regulation of SR Ca2+ handling proteins. A unique pathway for Cacna1c transcriptional regulation by CaMKII and DREAM was also described. / Tiivistelmä Sydän- ja luustolihassolujen supistuminen on seurausta ärsytys-supistuskytkennästä (ECC), jossa sähköinen ärsytys kohottaa solunsisäistä kalsiumpitoisuutta ja aiheuttaa supistuksen. Tätä säädellään tarkasti fysiologisen tarpeen mukaan, ja se riippuu riittävästä energian saannista. Häiriintynyt ECC voi aiheuttaa vakavia seurauksia lihassolujen toiminnalle, ja se on mukana monien sydän- ja luustolihasten sairauksien synnyssä. Tässä tutkimuksessa ECC:n transkriptionaalista säätelyä tutkittiin luustolihasten ja sydämen lihassoluissa. Luustolihassolujen kalsekvestriinin (CASQ1) väheneminen pienensi SR:n Ca2+-määrää mitokondrioiden myopatian hiirimallissa ja heikensi Ca2+-tasapainon ylläpitoa Tfam-/--luustolihassoluissa. Viljellyissä vastasyntyneiden kammio-sydänlihassoluissa mitokondrio-irtikytkijän FCCP:n aiheuttama mitokondrioiden toimintahäiriö johti sydämen kalsekvestriinin (CASQ2) vähenemiseen ja heikensi samalla tavalla Ca2+-tasapainon ylläpitoa. Vaikka Tfam-/--myosyyteissä reaktiivisten happilajien (ROS) tasot eivät olleet koholla, FCCP:lle altistetuissa viljellyissä soluissa ROS kuitenkin lisääntyi. Vaikutusta esti ROS-puhdistaja NAC, joka heikensi FCCP:n aiheuttamaa CASQ2:n laskua ja palautti Ca2+-säätelyn normaaliksi. Mitokondrioiden toimintahäiriö siis johti CASQ1/2:n vähenemiseen ja Ca2+-säätelyn heikentymiseen molemmissa solutyypeissä, mutta eri mekanismeilla. Tässä tutkimuksessa tarkasteltiin myös Ca2+-dynamiikan osuutta Ca2+-tasapainoon osallistuvien geenien transkription säätelyssä. Lisääntynyt solunsisäinen Ca2+-taso ja sydänlihassolujen β-adrenerginen stimulointi aktivoivat Ca2+-kalmoduliinikinaasi II:n (CaMKII), ja ne voivat laukaista sydämen hypertrofisen uudelleenmuovautumisen. Havaittiin, että CaMKII vähensi L-tyypin Ca2+-kanavan a1c-alayksikön (Cacna1c) ilmentymistä viljellyissä sydänlihassoluissa. Promoottorianalyysi osoitti tämän johtuvan transkription repressorin DREAM:n sitoutumisesta oletettuun DRE:hen (alavirrassa sijaitseva säätelyelementti). Nämä tulokset tuovat uutta tietoa lihassolujen energiatalouden ja SR:n Ca2+:n vaikuttavien proteiinien transkription säätelyn vuorovaikutuksesta. Lisäksi havaittiin ainutlaatuinen Cacna1c-transkription säätelyn reitti, johon osallistuvat CaMKII ja DREAM. calcium calcium handling calsequestrin cardiomyocytes gene expression mitochondria mitochondrial cardiomyopathy mitochondrial dysfunction calsequestriini geeniekspressio kalsium kalsiumkäsittely kardiomyosyytit mitokondriaalinen kardiomyopatia mitokondrioiden toimintahäiriö mitokondriot CaMKII Cacna1c
482	Función y biogénesis mitocondrial. Diferencias entre géneros Justo López, Roberto 25 July 2005 (has links) El objetivo principal de esta tesis se ha centrado en el estudio de las diferencias entre ratas macho y hembra en la morfología, la función y la biogénesis mitocondrial del tejido adiposo marrón (TAM) y del hígado, mediante el análisis de distintas subpoblaciones mitocondriales obtenidas a través del fraccionamiento de la población mitocondrial total. Los resultados han puesto de manifiesto que las diferencias entre géneros a nivel mitocondrial tanto en el TAM y como en el hígado podrían ser atribuidas a la existencia de una subpoblación mitocondrial altamente diferenciada en las hembras, hecho que podría ser indicativo de un proceso de biogénesis mitocondrial distinto entre ambos géneros. Los resultados sugieren la existencia de un factor común a ambos tejidos que influiría en la regulación de dicho proceso. En este sentido, las hormonas sexuales podrían ser uno de los factores candidatos responsables de las diferencias observadas en el presente trabajo. / The main goal of this thesis has been focused on the study of gender differences in the mitochondrial morphology, function and biogenesis both in brown adipose tissue (BAT) and in liver, through the analysis of the several mitochondrial subpopulations isolated by means of the fractionation of the whole mitochondrial population. Results have reflected that the gender dimorphism stated in mitochondrial population both in BAT and in liver could be attributed to the existence to more highly differentiated mitochondria in female rats, which could be the result of a different mitochondrial biogenesis process between genders. Since the existence of a common factor which influences this process in both tissues could be hypothesized, sexual hormones could be one of the main factors responsible for the differences described in the present work liver Mitochondrial function subpoblaciones mitocondriales tejido adiposo marrón hígado Función mitocondrial brown adipose tissue mitochondrial subpopulations Bioquímica i Biologia Molecular 577
483	Cellular function and toxicity of the Parkinson’s disease-related genes α-synuclein and catp-6 in C. elegans Wender, Nora 11 April 2012 (has links) No description available. 570 Parkinson's Disease C. elegans Caenorhabditis elegans Mitochondria alpha-synuclein PARK9 PARK1 ATP13A2 catp-6 Protein aggregation Neurodegeneration Lysosome Mitochondrial morphology Mitochondrial dynamics Biologie (PPN619462639)
484	Influence des routes sur la variance du succès reproducteur des populations de tortues peintes (Chrysemys Picta) Silva-Beaudry, Claude-Olivier January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Chrysemys picta Tortue peinte Painted turtle Route Road Variance du succès reproducteur Variance in reproductive success Taille efficace Effective population size Diversité génétique Genetic diversity Microsatellite ADN mitochondrial Mitochondrial DNA
485	Evaluation of metallothionein involvement in the modulation of mitochondrial respiration in mice / Marianne Pretorius. Pretorius, Marianne January 2011 (has links) Metallothioneins (MTs) are small, non-enzymatic proteins that are involved in cellular detoxification and metal homeostasis because of their high cysteine content. MTs have also been identified as one of the vast number of adaptive responses to mitochondrial respiratory chain (RC) deficiencies. Aside from this, numerous other studies have linked MTs to several mitochondrion-linked components, including reactive oxygen species (ROS) and oxidative stress, apoptosis, glutathione, energy metabolism and nuclear- and mitochondrial DNA transcription regulation. However, most of the reports concerning the putative link between MTs and mitochondria are from in vitro studies and relatively little supportive in vivo evidence has been reported. Information on the involvement of MTs with respiratory chain function is especially limited. Is was therefore the aim of this study to investigate the involvement of MTs in mitochondrial respiration and respiratory chain enzyme function by using an MT knockout (MTKO) mouse model, which was treated with the irreversible complex I inhibiting reagent, rotenone. The aim was achieved by implementing three objectives: firstly, the RC function was investigated as a complete working unit; secondly, the functional and structural properties of single units (enzymes) of the RC were investigated utilising enzyme activity assays and BN- PAGE/western blot analysis; and thirdly, the possible effect of MTs on mtDNA copy number was investigated. While some tendencies of variation in RC enzyme activity and expression were identified, no significant effect on the overall mitochondrial respiratory function, or any significant differences in the relative mtDNA copy number of MTKO mice were observed. Thus it is concluded, while MTs have in this study revealed relatively small changes in respiratory chain function, which may still prove to have biological ignificance in vivo, the exact nature of the putative role of MTs in mitochondrial respiration or oxidative phosphorylation remains undefined. / Thesis (MSc (Biochemistry))--North-West University, Potchefstroom Campus, 2012. mitochondrion metallothionein oxidative phosphorylation respiratory chain mitochondrial disease MTKO mouse model complex I deficiency rotenone enzyme activity analyses mitochondrial respiration analyses
486	Evaluation of metallothionein involvement in the modulation of mitochondrial respiration in mice / Marianne Pretorius. Pretorius, Marianne January 2011 (has links) Metallothioneins (MTs) are small, non-enzymatic proteins that are involved in cellular detoxification and metal homeostasis because of their high cysteine content. MTs have also been identified as one of the vast number of adaptive responses to mitochondrial respiratory chain (RC) deficiencies. Aside from this, numerous other studies have linked MTs to several mitochondrion-linked components, including reactive oxygen species (ROS) and oxidative stress, apoptosis, glutathione, energy metabolism and nuclear- and mitochondrial DNA transcription regulation. However, most of the reports concerning the putative link between MTs and mitochondria are from in vitro studies and relatively little supportive in vivo evidence has been reported. Information on the involvement of MTs with respiratory chain function is especially limited. Is was therefore the aim of this study to investigate the involvement of MTs in mitochondrial respiration and respiratory chain enzyme function by using an MT knockout (MTKO) mouse model, which was treated with the irreversible complex I inhibiting reagent, rotenone. The aim was achieved by implementing three objectives: firstly, the RC function was investigated as a complete working unit; secondly, the functional and structural properties of single units (enzymes) of the RC were investigated utilising enzyme activity assays and BN- PAGE/western blot analysis; and thirdly, the possible effect of MTs on mtDNA copy number was investigated. While some tendencies of variation in RC enzyme activity and expression were identified, no significant effect on the overall mitochondrial respiratory function, or any significant differences in the relative mtDNA copy number of MTKO mice were observed. Thus it is concluded, while MTs have in this study revealed relatively small changes in respiratory chain function, which may still prove to have biological ignificance in vivo, the exact nature of the putative role of MTs in mitochondrial respiration or oxidative phosphorylation remains undefined. / Thesis (MSc (Biochemistry))--North-West University, Potchefstroom Campus, 2012. mitochondrion metallothionein oxidative phosphorylation respiratory chain mitochondrial disease MTKO mouse model complex I deficiency rotenone enzyme activity analyses mitochondrial respiration analyses
487	Réparation par excision de base au niveau mitochondrial chez la drosophile. Analyse d'un acteur potentiel de ce processus : la protéine PARP / Repair by basic excision at the mitochondrial level in Drosophila. Analysis of a potential actor in this process : the PARP protein Cruz-Rodriguez, Luis 17 December 2013 (has links) Les mitochondries sont des organites essentiels pour la production d'énergie cellulaire grâce à la synthèse d'ATP au cours des étapes de phosphorylations oxydatives (OXPHOS). Les complexes de la chaine respiratoire sont en partie codés par le génome mitochondrial (ADNmt), dont la structure est très sensible aux facteurs exogènes ou endogènes. De nombreuses mutations de l'ADNmt sont associées à des dysfonctionnements de la chaine respiratoire conduisant à des pathologies. La production d’Espèces Oxygénées Réactives (EOR) mitochondriale est la principale source de dommages à l’ADNmt. Une voie de réparation particulière, le système de réparation par excision de bases (BER) est mis en oeuvre dans ce cas. Nous avons, au cours de notre étude, analysé le système BER mitochondrial chez la drosophile. Dans une première approche, nous avons caractérisé de manière globale par une technologie de puces à ADN un ensemble de glycosylases et endonucléases impliquées dans la voie BER mitochondriale et comparé leur variation au cours du vieillissement. Cette étude a été complétée par une analyse transcriptionnelle sur des modèles de drosophiles mutantes pour des enzymes spécifiques de la voie BER, ceci afin de déterminer les éventuelles interactions transcriptionnelles entre les acteurs de cette voie. L’ARNm de Parp présentait de fortes variations dans les différents contextes mutants testés. C’est une molécule essentielle de la réparation BER. Elle a fait l’objet dans un deuxième temps, d’une étude plus approfondie. Dans le modèle des cellules S2, PARP bien que majoritairement nucléaire est également présent dans la mitochondrie. Le comportement différentiel des deux variants ARNm de Parp a pu être mis en évidence lors de stress cellulaires. Les isoformes protéiques de PARP observées dans nos études apparaissent différentes de celles habituellement décrites dans la littérature. Cet aspect a été discuté. / Mitochondria are key organelles mainly devoted to energy production through ATP synthesis. Such a function is permitted by oxidative phosphorylation (OXPHOS) within mitochondria inner membrane. Key components of the OXPHOS processes are encoded by mitochondrial DNA (mtDNA) that is particularly sensitive to exogenous or endogenous insults. As a result, mtDNA mutations are often correlated with OXPHOS dysfunction leading to diseases. ROS production in mitochondria is the main source of mtDNA damage. Such DNA damages are mainly taken over by BER systems within mitochondria. In this study, we focused on this peculiar mitochondrial DNA repair system in Drosophila. In a first step, we analysed in a comprehensive manner through microarray, most glycosylases and endonucleases involved in mitochondrial BER and compared their evolution during aging. Using mutant flies for specific BER enzymes, we started to decipher some of the transcriptional interactions between key BER actors. In a second step, Parp molecule was further studied due its changes in all mutant contexts and for its importance in several cellular processes. We described its nuclear but also its mitochondrial location in S2 cells. Interestingly, two Parp mRNA variants were observed showing distinct regulations following stress induction. However, PARP protein isoforms observed in this study were different compared to what was described in literature. This discrepancy is discussed. ADN mitochondrial Réparation BER Puces ADN Poly(ADP-ribosyl)ation PARP PARG Mitochondrial DNA DNA repair BER Microarrays Poly(ADP-ribosyl)ation PARP PARG
488	Análise de marcadores moleculares do DNA mitocondrial em anuros da Mata Atlântica / Analysis of molecular markers of mitochondrial DNA in Atlantic Rainforest Anurans Anna Carolina da Silva Chaves 11 March 2014 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / A Mata Atlântica brasileira concentra uma das maiores diversidades biológicas da Terra com cerca de 7% das espécies animais e vegetais do planeta. Esse bioma abriga atualmente mais de 50% das espécies de anuros do Brasil (c.a. 500 espécies), mas sofre intensa perda e fragmentação de habitat. Um dos principais fragmentos da Mata Atlântica, a Reserva Ecológica de Guapiaçu (REGUA) abriga vasta anurofauna, com cerca de 71 espécies já descritas. Acredita-se, porém, que muitas ainda precisam ser identificadas e estudadas. A identificação de espécies baseada em caracteres moleculares vem se mostrando uma alternativa para dar suporte à identificação morfológica, e dentro deste contexto os genes de DNA mitocondrial, como o 16S, são utilizados para a realização de barcode. O objetivo deste estudo foi testar a metodologia de identificação molecular de espécies (DNA barcode) na comunidade de anfíbios anuros da REGUA utilizando o gene mitocondrial 16S. Para isso, foram coletados tecidos de 99 indivíduos, entre adultos e girinos de 23 espécies, agrupados em seis famílias distintas. Desses 99 indivíduos, 88 foram amplificados corretamente para o gene em referência e foram realizadas, com sucesso, a determinação de espécies de 84 anuros (95,45%) da REGUA. As espécies de Scinax albicans, Scinax flavoguttatus e Hylodes charadranaetes, cujas identificações haviam sido determinadas com base em critérios morfológicos, agruparam em clados de mesmo gênero, porém de espécies diferentes quando analisadas pelas metodologias neighbor-joining e maximum-likelihood. Além de altos valores de distância intraespecífica (2,18%, 3,49% e 3,77%, respectivamente) e distâncias interespecíficas nulas (0%) temos a indicação de possíveis equívocos em determinações de espécies feitas exclusivamente por critérios morfológicos. Nesse caso, as discordâncias morfológica e molecular são exclusivamente de girinos, demonstrando a dificuldade na identificação morfológica e a escassez de chaves de identificação dessas espécies em estágio larval. Os resultados mostram que o gene mitocondrial 16S teve seu uso na identificação de anuros da REGUA confirmada e apontam que, em casos de estudos com indivíduos em estágios larvais, como em girinos, a metodologia de barcode, quando complementada a identificação morfológica, suporta a correta identificação das espécies de anfíbios anuros. / The Brazilian Atlantic Forest focuses one of the greatest biological diversity of the Earth with about 7% of the planet's animal and plant species. This biome is currently home to more than 50% of anurans species from Brazil (c.a. 500 species), but it suffers severe loss and fragmentation of habitat. One of the main fragments of the Atlantic Forest, the Reserva Ecológica de Guapiaçu (REGUA) houses a wide anuran fauna, with about 71 species had already described. It is believed, however, that lots of them still need to be identified and studied. The identification of these species based on molecular characters has proven to be an alternative to support a morphological identification, and in this context the mitochondrial DNA genes, such as 16S are used to perform barcode. The goal of this study was to test the methodology for molecular identification (DNA barcode) in anurans of REGUA community using 16S mitochondrial gene. For this, tissues of 99 individuals, including adults and tadpoles of 23 species, grouped into six different families were collected. Of these 99 individuals, 88 were amplified correctly to the reference gene and were successful determination of 84 species of anurans (95.45%) of the REGUA. Scinax albicans, Scinax flavoguttatus and Hylodes charadranaetes species whose identifications had been determined based on morphological criteria, grouped into clades of the same gender, but different species when analyzed by methodologies neighbor-joining and maximum-likelihood. In addition to high intraspecific distances (2,18%, 3,49% and 3,77% respectively) and interspecific distances to nil (0%), we have an indication of possible mistakes of species determinations made by a morphological criterion. In this case, the morphological and molecular disagreements are exclusively on tadpoles, demonstrating the difficulty of morphological identification and the shortage of identification of these species larval stage. The results show that the 16S mitochondrial gene had its use in identifying the anurans REGUA confirmed and indicate that the case studies with individuals in larval stages, as in tadpoles , the methodology of the barcode when complemented morphological identification, supports the correct identification of species of anurans amphibians . 16S DNA barcode DNA mitochondrial REGUA Mata Atlântica Anfíbios Amphibians Atlantic Forest REGUA Mitochondrial DNA DNA barcode 16S GENETICA MOLECULAR E DE MICROORGANISMOS
489	Bioenergética mitocondrial do coração na obesidade induzida por dieta ocidental em camundongos Swiss / Mitochondrial bioenergetics in heart fat diet-induced obesity in mice swiss Fabiana Alves Neves 25 January 2012 (has links) Fundação Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro / A obesidade, doença resultante do acúmulo excessivo de gordura corporal, é importante fator de risco para diabetes mellitus tipo 2, dislipidemias e doenças cardiovasculares, doenças de alta prevalência em todo o mundo. O processo de transição nutricional decorrente da globalização contribuiu para o crescente número de indivíduos com obesidade, principalmente pela modificação nos hábitos alimentares da população, com ampla inclusão de produtos industrializados ricos em gordura saturada, sal e açúcar, denominada dieta ocidental. Os mecanismos pelos quais a obesidade induzida por dieta leva ao desenvolvimento de doenças cardiovasculares ainda não estão completamente esclarecidos na literatura, porém sabe-se que a obesidade leva ao comprometimento da função cardíaca e do metabolismo energético, aumentando a morbidade e mortalidade. Em grande parte dos estudos relacionados à obesidade, o metabolismo energético celular comprometido associa-se à disfunção mitocondrial. Neste contexto, torna-se importante avaliar a função mitocondrial na obesidade, visto que as mitocôndrias são organelas com funções-chave no metabolismo energético. No presente estudo, avaliamos inicialmente o efeito obesogênico da dieta ocidental em camundongos Swiss por 16 semanas a partir do desmame. Para tal, analisamos a ingestão alimentar, evolução da massa corporal, Índice de Lee, peso das gorduras epididimal e retroperitoneal, peso e morfologia do fígado, relação entre o peso do fígado/massa corporal, peso do ventrículo esquerdo (VE)/massa corporal, glicemia de jejum e teste intraperitoneal de tolerância à glicose. Avaliamos também o consumo de oxigênio das fibras cardíacas através da respirometria de alta resolução. Além disso, o conteúdo das proteínas envolvidas no metabolismo energético: Carnitina Palmitoil Transferase 1 (CPT1), proteína desacopladora 2 (UCP2), Transportadores de glicose 1 e 4 (GLUT1 e GLUT4), proteína quinase ativada por AMP (AMPK), proteína quinase ativada por AMP fosforilada (pAMPK), receptor de insulina β (IRβ) e substrato do receptor de insulina 1 (IRS-1) foi determinado por western blotting. Nossos resultados confirmaram o caráter obesogênico da dieta ocidental, visto que os camundongos submetidos a esta dieta (GO), apresentaram-se hiperfágicos (P<0,001) e obesos (72,031,82, P<0,001), com aumento progressivo no ganho de massa corporal. Além do aumento significativo dos parâmetros: Índice de Lee (362,902,44, P<0,001), gorduras epididimal e retroperitonial (3,310,15 e 1,610,11, P<0,001), relação entre o peso do fígado/massa corporal (0,060,003, P<0,001) e peso de ventrículo esquerdo (VE)/massa corporal (0,080,002, P<0,01), hiperglicemia de jejum (192,1014,75, P<0,01), intolerância à glicose (P<0,05, P<0,01) e deposição ectópica de gordura no fígado. A respirometria de alta resolução evidenciou disfunção mitocondrial cardíaca no grupo GO, com reduzida capacidade de oxidação de carboidratos e ácidos graxos (P<0,001) e aumento do desacoplamento entre a fosforilação oxidativa e a síntese de ATP (P<0,001). Os resultados de western blotting evidenciaram aumento nos conteúdos de CPT1 (1,160,08, P<0,05) e UCP2 (1,080,06, P<0,05) e redução no conteúdo de IRS-1 (0,600,08, P<0,05). Não houve diferença significativa nos conteúdos de GLUT1, GLUT4, AMPK, pAMPK, pAMPK/AMPK e IRβ. Em conclusão, o consumo da dieta ocidental resultou no desenvolvimento de obesidade com disfunção mitocondrial associada a alterações no metabolismo energético. / Obesity, a disease resulting from excessive accumulation of body fat is a risk factor for type 2 diabetes, dyslipidemia and cardiovascular diseases, which are of high prevalence worldwide. Nutritional transition, a process associated with globalization, has contributed to growing obesity, mainly by changing eating habits of the population, with broad inclusion of industrial products high in saturated fat, salt and sugar, the called Western diet. The mechanisms by which diet-induced obesity leads to cardiovascular disease are not completely understood, but it is known that obesity leads to impairment of cardiac function and energy metabolism, increasing morbidity and mortality. In most obesity studies, the related cellular energy metabolism is compromised associated with mitochondrial dysfunction. In this context, it becomes important to asses mitochondrial function in obesity, since mitochondria are organelles with key roles in energy metabolism. In the present study, we evaluated the effect of the Western diet in Swiss mice for 16 weeks from weaning. We analyzed the food intake, changes in body weight, Lee index, weight of epididymal and retroperitoneal fat, weight and morphology of the liver, the ratio of liver weight /body weight, weight of the left ventricle (LV)/body weight , fasting plasma glucose and intraperitoneal glucose tolerance test. We also evaluated the oxygen consumption of cardiac fibers by high-resolution respirometry. Furthermore, proteins content involved in energy metabolism: carnitine palmitoyl transferase 1 (CPT1), uncoupling protein 2 (UCP2), glucose transporters 1 and 4 (GLUT1 and GLUT4), AMP-activated protein kinase (AMPK), AMP-activated protein kinase phosphorylated (pAMPK), insulin receptor β (IRβ) and insulin receptor substrate 1 (IRS-1) was determined by western blotting. Our results confirmed the obesogenic role of the Western diet. Thus, mice subjected to Western diet (WG), presented hyperphagia (P<0.001) and obesity (72.031.82, P<0.001), with a progressive increase in body mass gain. Also, the WG group compared to control had statistically significant increase of the all parameters studied: Lee index (362.902.44, P<0.001), epididymal and retroperitoneal fat (3.310.15 and 1.610.11, P<0.001), ratio of liver weight/body weight (0.060.003, P<0.001) and weight of the left ventricle (LV)/body weight (0.080.002, P<0.01), fasting hyperglycemia (192.1014.75, P<0.01), glucose intolerance (P<0.05, P<0.01) and ectopic fat deposition in liver. High-resolution respirometry showed cardiac mitochondrial dysfunction in the WG group, with reduced capacity of oxidation of carbohydrates and fatty acids and increased uncoupling between oxidative phosphorylation and ATP synthesis. Western blotting results revealed an increase in CPT1 (1.160.08, P<0.05) and UCP2 (1.080.06, P<0.05) content and reduction in IRS-1 content (0.600.08, P<0.05). There was no statistically significant difference in the GLUT1, GLUT4, AMPK, pAMPK, pAMPK/AMPK and IRβ content. In conclusion, the Western diet consumption resulted in the development of obesity with mitochondrial dysfunction associated to alterations in energy metabolism. Bioenergética mitocondrial Dieta ocidental Disfunção mitocondrial Obesidade induzida por dieta. Diet-induced obesity Mitochondrial bioenergetics Mitochondrial dysfunction Western diet FISIOLOGIA ENDOCRINA
490	INFLUÊNCIA DA HIPÓXIA SOBRE PARÂMETROS DE ESTRESSE OXIDATIVO E VIABILIDADE MITOCONDRIAL DE JUNDIÁS EXPOSTOS AO MANGANÊS Dolci, Geisa Sorezina 01 February 2012 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / Metals environment aquatic contamination has been a growing problem with serious consequences to life of different species over time, even after interrupted their emission into the environment. Among relevance metals, manganese (Mn) has shown importance to be related to several activities such as oil exploration, coal deposits extraction, fertilizer use in agriculture, among others. In living organisms, Mn is an essential trace element for a number of vital functions, and involves energy regulation by blood clotting. On the other hand, high concentrations of Mn can cause irreversible damage to living organisms primarily affecting central nervous system (CNS). Thus, waterborne Mn toxicity can switch from aquatic species, while metal bioaccumulation in marine fish or freshwater has been found around 0.2 to 19.0 mg/kg dry weight. In this study, silver catfish (Rhamdia quelen) were exposed to different Mn concentrations (4.2; 8.4 e 16.2 mg/L), under two different dissolved oxygen levels, normoxia (7.48 ± 0.28) and hypoxia (3.88 ± 0.41) for 15 days. At the end of protocol, Mn bioaccumulation as well parameters of oxidative stress and mitochondrial viability were evaluated in different tissues. In hypoxic conditions, the highest Mn concentration (16.2 mg/L) showed the lowest silver catfish kidney and brain lipoperoxidation (LPO) levels, while brain reduced glutathione (GSH) levels were increased in lower Mn concentration (4.2 mg/L) and kidney catalase activity was reduced in the same metal concentration, in relation to normoxia. Lowest Mn concentration (4.2 mg/L) in hypoxia showed higher gills mitochondrial viability, compared to normoxia. Hematocrit of silver catfish exposed to two highest Mn concentration (8.4 and 16.2 mg/L) was reduced in normoxia conditions while under hypoxia, these values were similar to control. Plasma except, Mn bioaccumulation in liver, kidney and gills were higher in normoxia than hypoxia. From these results is possible to suggest that hypoxia stimulates the development of adaptive mechanisms and/or hormesis in silver catfish exposed to Mn, mainly because the lower metal bioaccumulation occurred in this oxygen level. Contributing with this, under hypoxia, oxidative damage indicators were lower than those observed in normoxia, which were accompanied by changes in antioxidant system represented by GSH and catalase. In conclusion, our results show in the first time that silver catfish exposed to Mn contamination is able to show a better survival under hypoxia. These findings indicate need for continuing studies in search of molecular mechanisms involved in the adaptation and or hormesis processes, which were suggested here. / A contaminação do meio aquático por metais tem sido um problema crescente para à vida de diferentes espécies, mesmo depois de interrompida sua emissão no ambiente. Entre os metais de relevância, o manganês (Mn) apresenta importância por estar relacionado a uma série de atividades tais como exploração de petróleo, extrativismo em jazidas de carvão mineral, utilização de fertilizantes na agricultura, entre outros. Nos organismos vivos, o Mn constitui um oligoelemento essencial para uma série de funções vitais, e envolve desde a regulação da energia até coagulação sangüínea. Por outro lado, quando em concentrações elevadas, o Mn pode causar danos irreversíveis aos organismos afetando principalmente o sistema nervoso central (SNC). A toxicidade do Mn dissolvido na água pode variar entre as espécies aquáticas, a bioacumulação do metal em peixes marinhos ou de água doce tem sido encontrada em torno de 0,2 até 19,0 mg/kg de peso seco. No presente estudo, jundiás (Rhamdia quelen) foram expostos a diferentes concentrações de Mn (4,2; 8,4 e 16,2 mg/L), sob dois diferentes níveis de oxigênio dissolvido: normóxia (7,48±0,28 mg/L) e hipóxia (3,88±0,41 mg/L), durante 15 dias. Ao final do protocolo, a bioacumulação de Mn bem como, parâmetros de estresse oxidativo e a viabilidade mitocondrial foram avaliados em diferentes tecidos vitais. Em condições de hipóxia, a maior concentração de Mn (16,2 mg/L) mostrou os menores níveis de lipoperoxidação (LPO) em rim e encéfalo dos jundiás, enquanto os níveis de glutationa reduzida (GSH) encefálico foram aumentados na menor concentração de Mn (4,2 mg/L) e a atividade da catalase renal foi reduzida nesta mesma concentração de metal, em relação à normoxia. A menor concentração de Mn (4,2 m/L) em hipóxia proporcionou maior viabilidade mitocondrial das brânquias, em relação à normóxia. O hematócrito dos jundiás expostos às duas maiores concentrações de Mn (8,4 e 16,2 mg/L) foi reduzido em condições de normóxia, enquanto sob hipóxia, estes valores foram semelhantes ao grupo sem a presença do metal. Sob normóxia, a bioacumulação de Mn em fígado, rim e brânquias foi maior que sob hipóxia, excetuando o plasma. A partir desses resultados é possível sugerir que a hipóxia pode ter estimulado o desenvolvimento de mecanismos adaptativos ou de hormesis nos jundiás, em presença de Mn na água, principalmente porque neste nível de oxigênio, a bioacumulação do metal ocorreu em menor grau. Contribuindo com este resultado, sob hipóxia, os indicadores de danos oxidativos foram mais baixos que os observados sob normóxia, os quais foram acompanhados de alterações do sistema antioxidante representado pela GSH e catalase. Neste sentido, nossos resultados apontam para uma melhor sobrevivência da espécie em estudo, sob hipóxia, quando exposta ao Mn. Estes achados indicam a necessidade da continuidade dos estudos, em busca dos mecanismos moleculares envolvidos no processo de adaptação aqui sugeridos. Rhamdia quelen Manganese Dissolved oxygen Oxidative stress Mitochondrial viability Hormesis Rhamdia quelen Manganese Dissolved oxygen Oxidative stress Mitochondrial viability Hormesis CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

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