Geração de espécies reativas de oxigênio (ERO) mitocondriais: papel das Acil-CoA desidrogenases de cadeia muito longa / Generation of mitochondrial reactive oxygen species (ROS): role of very long chain acyl-coA dehydrogenases

Ariel Rodrigues Cardoso

17 September 2014

Dietas hiperlipídicas e a esteatose hepática são condições extremamente prevalentes. Trabalhos anteriores mostraram que a esteatose está associada a um aumento na geração de espécies reativas de oxigênio (ERO), e que isso pode mediar danos no fígado. Neste trabalho nós investigamos os possíveis mecanismos que desencadeiam os aumentos nas taxas de geração de ERO por meio da administração de dietas hiperlipídicas. Nós descobrimos que mitocôndrias de animais sujeitos a dietas hiperlipídicas não apresentaram diferenças significativas quanto a capacidade respiratória máxima e acoplamento, mas eram capazes de gerar mais ERO especificamente quando usados substratos do metabolismo de ácidos graxos. Além disso, foi observado que muitas isoformas de acil-CoA desidrogenases estavam mais expressas nos fígados de animais alimentados pela dieta hiperlipídica. No entanto, quando realizados ensaios de atividade enzimática apenas a acil CoA desidrogenase de cadeia longa (VLCAD) foi mais ativa. Estudos conduzidos com mitocôndrias permeabilizadas e expostas a grupos acil-CoA de diferentes tamanhos sugerem que a VLCAD pode ser uma fonte da produção aumentada de ERO em animais submetidos a dietas hiperlipídicas. Esta produção foi estimulada pela ausência de NAD+. Concluindo, nossos estudos descobriram uma nova fonte importante na geração de ERO estimulada por dietas hiperlipídicas, a VLCAD / High fat diets and accompanying hepatic steatosis are highly prevalent conditions. Previous work has shown that steatosis occurs concomitantly with enhanced reactive oxygen species (ROS) generation, which may mediate further liver damage. Here we investigated mechanisms leading to enhanced ROS generation following high fat diets (HFD). We found that mitochondria from HFD livers present no differences in maximal respiratory rates and coupling, but generate more ROS specifically when fatty acids are used as substrates. Indeed, many acyl-CoA dehydrogenase isoforms were found to be more highly expressed in HFD livers, although only the very long chain acyl-CoA dehydrogenase (VLCAD) was more functionally active. Studies conducted with permeabilized mitochondria and different chain length acyl-CoA derivatives suggest that VLCAD is a source of enhanced ROS production in mitochondria from HFD animals. This production is stimulated by the lack of NAD+. Overall, our studies uncover VLCAD as a novel, diet-sensitive, source of mitochondrial ROS

Acil-CoA desidrogenases

Dietas hiperlipídicas

Espécies reativas de oxigênio (ERO)

Mitocôndrias

Acyl-CoA dehydrogenases

High fat diet

Mitochondria

Reactive oxygen species

Mimicking C-C bond forming reactions of core metabolism / Reproduction des réactions de formation de liaisons C-C s'opérant au cœur du métabolisme

Varma, Sreejith Jayasree

05 October 2018

Toutes les formes de vie assemblent et désassemblent continuellement des composés chimiques via un processus de consommation d'énergie appelé métabolisme. Le métabolisme est généralement modélisé en chimie et biologie par un cycle. Ce modèle dynamique traduit la transformation de composés de base en une cascade de produits appelés métabolites. Celui-ci est comparable à un ouragan à l’échelle moléculaire. De manière analogique et imagée un cyclone est constitué de deux éléments, l'air et l'eau, et transforme l’environnement qui l’entoure par un processus endothermique (consommateur d’énergie). Traditionnellement, la recherche chimique sur les origines de la vie est concentrée principalement sur la synthèse de composés chimiques sans suffisamment apprécier leur place dans la plus grande organisation biochimique de la vie. La vie construit toutes ses molécules à partir du dioxyde de carbone, pourtant elle manque étonnamment d'innovation à cet égard. Malgré presque 4 milliards d'années d'évolution, les organismes autotrophes utilisent seulement six voies différentes pour construire leurs molécules à partir du CO2. Parmi elles, deux voies – la voie de l’acétyle CoA (aussi appelée voie Wood-Ljungdahl) et le cycle du rTCA (également appelé le cycle de Krebs inverse) - sont considérées comme primitives, et contiennent les cinq molécules servant de précurseurs chimiques universels pour toute la biochimie. Comment et pourquoi les voies de l’acétyle CoA et du rTCA sont-elles apparues? Pour répondre à cette question, une recherche systématique a été effectuée afin de trouver des catalyseurs chimiques non-enzymatiques ou des minéraux simples, ainsi que des réactifs pouvant promouvoir les réactions d'anabolisme principal, particulièrement la voie de l’Acétyle CoA et le cycle de rTCA. A l’origine, pour créer les molécules organiques complexes comme les enzymes il a fallu que des molécules plus simples avec un moins grand nombre de carbone se forme sur terre et cela à partir du CO2. On peut donc supposer que les premiers produits à plusieurs carbones sont issus de synthèse totalement inorganique comme celles développer dans notre laboratoire, plutôt que d’une évolution chimique et organométallique simultanée, c’est-à-dire une interaction efficace entre une molécule carbonée et un ou plusieurs métaux à l’instar de certains enzymes. Après avoir trouvé autant de façons possible de promouvoir individuellement chaque étapes des cycles catalytiques étudiés, seules les conditions réactionnelles mutuellement compatibles (à savoir des conditions permettant de produire l’ensemble des métabolites dans le bon ordre) ont été retenu. / All life forms continuously build up and break down its constituent chemical building blocks, through an energy consuming process called metabolism. Just like a hurricane’s dynamic patterns and its building blocks (air and water) as being equally fundamental to its nature, so too should metabolism’s dynamic chemical patterns and chemical building blocks be viewed as equally characteristic. Traditionally, much chemical research on the origins of life is overly focused on the synthesis of chemical building blocks without sufficiently appreciating their place in life’s larger biochemical self-organization. Life ultimately builds all of its molecules from carbon dioxide, yet it is surprisingly lacking in innovation in this respect. Despite nearly 4 billion years of evolution, autotrophic organisms use only six pathways to build their molecules from CO2. Two of these pathways – the acetyl CoA pathway (also known as the Wood-Ljungdahl pathway) and rTCA cycle (also known as the reverse Krebs cycle) - are thought to be ancestral, with just five molecules within them serving as the universal chemical precursors for all of biochemistry. How and why did these pathways get their start? To answer this question, a systematic search was designed to find simple, non-enzymatic chemical or mineral catalysts and reagents, that can promote the reactions of core anabolism, particularly the acetyl CoA pathway and the rTCA cycle. After finding as many ways as possible to promote each reaction, they could be narrowed down to mutually compatible conditions where many reactions can occur in sequence. The more of core anabolism that can be achieved under a single set of purely chemical conditions, the more likely it is to have constituted early prebiotic chemistry rather than a later product of chemical and biological evolution.

Métabolisme

Voie de l’acétyle CoA

Cycle du rTCA

Cycle de Krebs inverse

Metabolism

Acetyl CoA pathway

RTCA cycle

Reverse Kreb’s cycle

572

Die Beeinflussung der Succinatproduktion durch die veränderte Aktivität der Succinyl-CoA Synthetase und der Pyruvat-Carboxylase in Yarrowia lipolytica

Kretzschmar, Anne

04 October 2010

Succinat und ihre Derivate werden in vielfältiger Weise in den Bereichen Tenside, Lebensmittel, Pharmazeutika und Polymere angewendet. Aufgrund der derzeit kostenintensiven petrochemischen Synthese ist die aerobe nicht-konventionelle Hefe Yarrowia (Y.) lipolytica für die biotechnologische Succinatsynthese von großem Interesse. In der vorliegenden Arbeit wurde das Potential dieser Hefe für eine industrielle Succinatproduktion unter Betrachtung des Einflusses der enzymatischen Aktivitäten von Succinyl-CoA Synthetase und Pyruvat-Carboxylase auf die Succinatsynthese untersucht. Es wurde eine Steigerung der Succinatausbeute um 40 % durch die Erhöhung der Pyruvat-Carboxylase Aktivität um den Faktor 7-8 gemeinsam mit der Deletion des Gens der β Untereinheit der Succinyl-CoA Synthetase im genetisch veränderten Y. lipolytica Stamm H222-AK10 (mcPYC Δscs2) erzielt. Unter Verwendung von Glycerol als C-Quelle wurde eine Erhöhung der Succinatbildung der Transformande H222 AK10 im Vergleich zum Wildtyp von 5,1 ± 0,7 g/l auf 8,7 ± 1,6 g/l nachgewiesen. Die Raum-Zeit-Ausbeute dieses Hefestammes verdoppelte sich von 11,9 ± 1,3 mg/l*h auf 21,9 ± 2,5 mg/l*h. Eine Erhöhung der Sekretion organischer Säuren gelang hingegen nicht durch den alleinigen Verlust der Succinyl-CoA Synthetase Aktivität in den Stämmen H222-AK4 (scs1::URA3), H222-AK8 (scs2:.URA3) und H222-AK9 (scs1::URA3 Δscs2) oder durch die alleinige Aktivitätserhöhung der Pyruvat-Carboxylase in H222-AK1 (mcPYC). Des Weiteren wurde ein Y. lipolytica Stamm erzeugt, der durch die Überexpression der für die Succinyl-CoA Synthetase kodierenden Gene SCS1 und SCS2 charakterisiert ist. Die Transformande H222 AK2 (mcSCS1 mcSCS2) bildete unter den gleichen Kultivierungsbedingungen durchschnittlich 2 g/l weniger Succinat als der Wildtyp (5,1 ± 0,7 g/l). Auch die zusätzliche Erhöhung der Pyruvat-Carboxylase Aktivität um den Faktor 4 in der Transformande H222 AK3 (mcPYC mcSCS1 mcSCS2) konnte den negativen Effekt der erhöhten Gen-Dosen von SCS1 und SCS2 auf die Succinatsynthese nicht aufheben. Dementsprechend wurden für H222-AK3 eine Succinatausbeute von 3,1 ± 0,3 g/l bestimmt.

Yarrowia lipolytica

Succinat

Pyruvat-Carboxylase

Succinyl-CoA Synthetase

Yarrowia lipolytica

succinate

succinyl-CoA synthetase

pyruvate carboxylase

ddc:579

rvk:WF 9735

Vergleichende Genomanalyse bei Mensch und Schwein am Beispiel ausgewählter syntenischer Regionen des humanen Chromosoms 6 / Comparative genome analysis of defined syntenic regions of human and porcine chromosoms

Duscher, Sonja

03 May 2001

No description available.

570 Biowissenschaften

Biologie

Economic Sciences

Triadin

Methylmalony-CoA-Mutase

SSC 1

Polymorphismus

triadin

methylmalonyl-CoA mutase

SSC 1

polymorphism

42.13

The type-I acyl-CoA thioesterase/acyltransferase gene family: linking structure to function /

O'Byrne, James,

January 2005

Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 4 uppsatser.

Efeito da pravastatina na agregação e número de plaquetas circulante em ratos tratados e não tratados com LPS / Effect of aggregation in pravastatin and current number of plates in rats treated and untreated with LPS

Naime, Ana Carolina Antunes, 1987-

24 August 2018

Orientador: Sisi Marcondes Paschoal / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-24T17:43:52Z (GMT). No. of bitstreams: 1 Naime_AnaCarolinaAntunes_M.pdf: 1176730 bytes, checksum: d42b22c3ad536a50c078c7dcc3f57226 (MD5) Previous issue date: 2014 / Resumo: A sepse leva a uma alta taxa de mortalidade em hospitais de todo o mundo e por se tratar de um quadro clínico muito complexo ainda não há tratamento eficaz para o mesmo. Nas últimas décadas tem-se dado destaque para o papel das plaquetas na sepse, já que a gravidade do quadro correlaciona-se com o número de plaquetas circulantes e seu estado de ativação. Uma vez que as estatinas têm sido usadas clinicamente com muito sucesso no tratamento de doenças inflamatórias, decidimos investigar o efeito da pravastatina em plaquetas de ratos sadios e em modelo experimental de sepse induzida por lipopolissacarídeo (LPS). Para tanto, ratos foram tratados com solução salina ou pravastatina 20 mg/kg (gavagem, uma vez ao dia durante 7 dias). No sexto dia, os ratos de ambos os grupos receberam uma única injeção de salina ou de LPS (1 mg/kg, i.p.) e após 48h o sangue arterial foi coletado. A determinação plasmática de TNF-'alfa' e trombopoietina foi feita por ELISA. O número de megariócitos foi determinado pela histologia da medula óssea. A agregação plaquetária foi induzida por ADP (1-10 µM). A formação de espécies reativas de oxigênio (EROs) e GMPc foi analizada em plaquetas por citometria de fluxo utilizando a sonda fluorescente DCFH-DA e por kit comercial, respectvamente. Também foi avaliada a atividade enzimática da SOD e glutationa peroxidase (GPx) em plaquetas através de kits comerciais. Nos ratos injetados com salina, a pravastatina aumentou 3,7 vezes os níveis plasmáticos de TNF-'alfa'. Além disso, a pravastaina reduziu 36% o número de plaquetas circulantes. A agregação plaquetária induzida por ADP foi significativamente reduzida por esta estatina, a qual foi acompanhada de uma redução dos níveis intraplaquetários de GMPc. Apesar do aumento marcante da atividade enzimática da SOD e da GPx, a pravastatina aumentou 2,4 vezes a quantidade de EROs em plaquetas de ratos injetados com salina. A pravastatina reduziu o número aumentado de leucócitos totais observado em ratos injetados com LPS para os mesmos valores encontrados em ratos injetados com salina. A concentração plasmática aumentada de TNF-? também foi reduzida pelo pré-tratamento com pravastatina, mas ainda permaneceu significativamente maior do que a observada em ratos injetados com salina. O LPS reduziu 6.8 vezes o número de plaquetas circulantes, o qual foi acompanhado por aumento do número de megacariócitos e redução de trombopoetina. O pré-tratamento com pravastatina restaurou os valores de trombopoetina e megacariócitos, mas não preveniu a queda do número de plaquetas circulantes. A agregação plaquetária induzida por ADP foi inibida por LPS e restaurada pela pravastatina. A quantidade de EROs em plaquetas de ratos injetados com LPS foi 2,2 vezes maior do que a observada em ratos injetados com salina, o qual foi acompanhado por um aumento significativo da atividade enzimática da SOD e da GPx. O pré-tratamento com pravastatina dos ratos injetados com LPS não modificou da quantidade de EROs intraplaquetária, mas reduziu de forma marcante a atividade enzimática da SOD e da GPx. Portanto, nossos resultados mostram que a administração de pravastatina em animais sadios, além de levar a trombocitopenia e estresse oxidativo plaquetário, promove um aumento dos níveis plasmáticos de TNF-?, o que poderia incorrer em danos teciduais a longo prazo. A pravastatina restaura a agregação plaquetária e melhora o quadro inflamatório dos ratos injetados com LPS. Entretanto, esta estatina não previne a queda acentuada do número de plaquetas circulantes, marcador importante para avaliação da gravidade da sepse, e nem reduz o estresse oxidativo plaquetário, o que poderia contribuir para a disfunção de diferentes tecidos. Sendo assim, a pravastatina não parece ser uma boa opção no tratamento da sepse / Abstract: Sepsis is still a cause of high mortality in hospitals all over the world. It is a very complex clinical condition and up to now there is no effective treatment. In the last decades works have been plublished describing the important role of platelets in sepsis, since the severity of the condition is correlated to the number of circulating platelets and their activation state. Statins, besides their action on lowering the cholesterol levels, have been successfully used in the treatment of inflammatory diseases. Therefore, in the present study we decided to investigate the effect of pravastatin in platelets of healthy rats and in model of experimental sepsis induced by lipopolysaccharide (LPS). Rats were treated with saline or pravastatin (20 mg/kg, gavage once daily for 7 days). On the sixth day, the rats in both groups received a single injection of saline or LPS ( 1 mg / kg, i.p.) and after 48h the arterial blood was collected. Plasmatic TNF-? and thrombopoietin concentrations were measured by ELISA. The number of megakaryocytes was determined by histology of the bone marrow. Platelet aggregation was induced by ADP (1-10 mM ). The formation of reactive oxygen species (ROS) and cGMP in platelets was analyzed by flow cytometry using DCFH-DA and by commercial kits, respectively. We also analyzed the enzymatic activity of SOD and glutathione peroxidase ( GPx ) in platelets using commercial kits. In rats injected with saline, pravastatin increased 3.7 fold the plasma levels of TNF-'alfa'. Furthermore, pravastaina reduced 36% the number of circulating platelets. Platelet aggregation induced by ADP was significantly reduced by this statin, which was accompanied by a reduction in the intraplatelet cGMP levels. Despite the marked increase in enzymatic activity of SOD and GPx, pravastatin increased 2.4 fold the amount of ROS in platelets of saline-injected rats. Pravastatin reduced the increased number of total leukocytes in LPS-injected to the same values found in rats injected with saline. Increased TNF-'alfa' plasma concentration was also reduced by pre-treatment with pravastatin, but it still remained significantly higher than that observed in saline-injected rats. LPS reduced 6.8 fold the number of circulating platelets, which was accompanied by increased numbers of megakaryocytes and reduced thrombopoietin concentration. Pre-treatment with pravastatin restored the values of thrombopoietin and megakaryocytes, but did not prevent the drop in circulating platelets. ADP-induced platelet aggregation was inhibited by LPS and restored by pravastatin. The amount of ROS in platelets of LPS-injected rats was 2.2 fold higher than that observed in rats injected with saline, which was accompanied by significant increase in SOD and GPx activity. The pretreatment with pravastatin of LPS-injected rats did not change the amount of intraplatelet ROS but markedly reduced SOD and GPx activity. Therefore, our results show that administration of pravastatin in healthy animals, in addition to lead thrombocytopenia and platelet oxidative stress, it promotes an increase in TNF-'alfa' levels, which could result in tissue injury in long-term. Pravastatin restores platelet aggregation and improves the inflammatory condition of LPS-injected rats. However, this statin does not prevent sharp drop in the number of circulating platelets, an important marker for evaluating the severity of sepsis, and neither reduces platelet oxidative stress, which could contribute to the dysfunction of different tissues. Thus, pravastatin does not seem to be a good option in the treatment of sepsis / Mestrado / Farmacologia / Mestra em Farmacologia

Plaquetas (Sangue)

Sepse

Lipopolissacarideos

Pravastatina

Blood platelets

Sepsis

Lipopolysaccharides

Pravastatin

O papel da Acetil-CoA Carboxilase hipotalâmica na resposta contra regulatória hepática de ratos = Hypothalamic inhibition of acetyl-CoA carboxylase stimulates hepatic counter-regulatory response independent of AMPK activation in rats / Hypothalamic inhibition of acetyl-CoA carboxylase stimulates hepatic counter-regulatory response independent of AMPK activation in rats

Pereira, Vinícius Dias, 1985-

23 August 2018

Orientador: Márcio Alberto Torsoni / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-23T16:21:53Z (GMT). No. of bitstreams: 1 Pereira_ViniciusDias_M.pdf: 1179657 bytes, checksum: 3d71a3a82020acdf4b2e2a10b8eabfdf (MD5) Previous issue date: 2013 / Resumo: A AMPK hipotalâmica age como um sensor energético e é capaz de modular a ingestão alimentar, homeostase de glicose e a biossíntese de ácidos graxos. É conhecido que a injeção intra-hipotalâmica de ácidos graxos suprime a produção de glicose pelo fígado, principalmente pela ativação de canais de potássio sensíveis a ATP hipotalâmico (K(ATP)). Uma vez que em todos os modelos estudados a biossíntese de malonil-CoA estava envolvida, nós hipotetizamos que a Acetil-CoA Carboxilase poderia modular respostas contra-regulatórias independente da disponibilidade de nutrientes. Nesse estudo foram empregados os seguintes métodos: Immunoblot, PCR em tempo real, ELISA e avaliações bioquímicas. Através desses métodos, nós mostramos que a redução da expressão de acetil-CoA carboxilase pela injeção de oligonucleotídeo antisense intraventricular resultou no aumento da ingestão alimentar e diminuiu a expressão dos mRNA de CART, CRH e TRH. Além disso, como nos ratos em jejum, os ratos tratados com oligonucleotídeo antisense apresentaram concentrações de corpos cetônicos e glucagon séricos aumentados, além de níveis de insulina e glicogênio hepático diminuídos. A redução de acetil-CoA carboxilase hipotalâmica também aumentou a expressão de PEPCK, fosforilação de AMPK e a produção de glicose no fígado. Interessantemente, esses efeitos foram observados sem modificação da fosforilação da AMPK hipotalâmica. Com isso, concluímos que a inibição da ACC hipotalâmica pode ativar resposta contra-regulatória hepática independente da ativação da AMPK hipotalâmica / Abstract: BACKGROUND: Hypothalamic AMPK acts as a cell energy sensor and can modulate food intake, glucose homeostasis, and fatty acid biosynthesis. Intrahypothalamic fatty acid injection is known to suppress liver glucose production, mainly by activation of hypothalamic ATP-sensitive potassium (K(ATP)) channels. Since all models employed seem to involve malonyl-CoA biosynthesis, we hypothesized that acetyl-CoA carboxylase can modulate the counter-regulatory response independent of nutrient availability. METHODOLOGY/PRINCIPAL FINDINGS: In this study employing immunoblot, realtime PCR, ELISA, and biochemical measurements, we showed that reduction of the hypothalamic expression of acetyl-CoA carboxylase by antisense oligonucleotide after intraventricular injection increased food intake and diminished the expression of CART, CRH, and TRH mRNA. Additionally, as in fasted rats antisense oligonucleotide-treated rats, increased serum glucagon and ketone bodies were observed along with diminished levels of serum insulin and hepatic glycogen. The reduction of hypothalamic acetyl-CoA carboxylase also increased PEPCK expression, AMPK phosphorylation, and glucose production. Interestingly, these effects were observed without modification of hypothalamic AMPK phosphorylation. CONCLUSION/SIGNIFICANCE: Hypothalamic ACC inhibition can activate hepatic counter-regulatory response independent of hypothalamic AMPK activation / Mestrado / Clinica Medica / Mestre em Clinica Medica

Sistema hipotálamo-hipófisario

Fígado gorduroso

Acetil-CoA carboxilase

Gluconeogênese

Neuropeptídeos

Fatty liver

Acetyl-CoA Carboxylase

Gluconeogenesis

Neuropeptides

Activity and mRNA abundance of enzymes for fatty acid synthesis and desaturation in mammary cell cultures

Jayan, Geetha C. Jr.

01 September 1998

The effect of exogenous unsaturated fatty acids on cellular fatty acid biosynthesis in mammary cells was examined. Under normal situations, even though the diet of a dairy cow contains considerable amounts of unsaturated fatty acids, viz. oleic acid (18:1) and linoleic acid (18:2), the major 18-carbon fatty acid that enters the circulation post-ruminally for delivery to the mammary gland is saturated fatty acid, viz. stearic acid (18:0). This is due to extensive ruminal biohydrogenation of unsaturated fatty acids. Studies have indicated that saturated fatty acids such as 18:0 are enhancers and that certain unsaturated fatty acids are inhibitors of de novo fatty acid synthesis in tissues such as the liver and adipose tissue. The present study investigated the effect of cis and trans isomers of 18:1 and 18:2 on de novo fatty acid synthesis and desaturation in mouse and bovine mammary epithelial cell cultures, and compared it with the effect caused by 18:0. In the first experiment 12.5, 25, 50 or 100 micromoles stearic acid (SA), oleic acid (OA), elaidic acid (EA), trans-vaccenic acid (TVA), linoleic acid (LA) or conjugated linoleic acid (CLA) were supplemented in the media of mouse mammary epithelial (MME) cells that were grown to confluence in Dulbecco's modified Eagle's medium (DMEM). As indicated by cellular palmitic acid (16:0) content and fatty acid synthetase (FAS) activity, when compared with SA all unsaturated fatty acid treatments inhibited de novo fatty acid synthesis in MME cells. In addition, OA at all concentrations and LA and CLA at 50 and 100 micromoles inhibited cellular stearoyl-CoA desaturase (SCD) activity and mRNA abundance. However, EA and TVA, when compared with SA, enhanced SCD activity and mRNA abundance at 12.5 and 25 micromoles. In the second experiment 25, 50 or 100 micromoles SA, OA, TVA, LA or CLA were supplemented in the media of bovine mammary epithelial cells that were grown to confluence in DMEM. As indicated by cellular 16:0 content, acetyl-CoA carboxylase (ACC) activity and FAS activity, treatment with the unsaturated fatty acids inhibited de novo fatty acid synthesis at all concentrations, when compared with SA. Unsaturated fatty acid treatments also reduced the abundance of ACC and FAS mRNA in the cells. When compared with SA at all treatment-concentrations, OA and LA inhibited whereas TVA and CLA enhanced cellular SCD activity and mRNA abundance in the bovine cells. In both cell types, CLA and TVA appeared to be the most potent inhibitors of saturated fatty acid biosynthesis. / Ph. D.

milk fat

acetyl-CoA carboxylase

fatty acid synthetase

stearoyl-CoA desaturase

conjugated linoleic acid

trans-vaccenic acid

Fettsäuretransport in die peroxisomale Matrix von <i>Arabidopsis thaliana</i> / Fatty acid transport into the peroxisomal matrix of <i>Arabidopsis thaliana</i>

Struß, Annett

03 May 2007

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Fettsäuretransport

ABC-Transporter

Acyl-CoA-Synthetase

Fatty acid transport

ABC-transporter

Acyl-CoA-Synthetase

42.15

42.43

42.30

35.78

WVE410

WVE200

WVK000

WUE200

Regulation of HMG-CoA reductase, HSL and ACAT expression and activity in testicular cholesterol metabolism in mink and in mouse following experimental genetic deletion

Chen, Li

08 1900

Introduction: L'homéostasie du cholestérol est indispensable à la synthèse de la testostérone dans le tissu interstitiel et la production de gamètes mâles fertiles dans les tubules séminifères. Les facteurs enzymatiques contribuent au maintien de cet équilibre intracellulaire du cholestérol. L'absence d'un ou de plusieurs enzymes telles que la HMG-CoA réductase, la HSL et l'ACAT-1 a été associée à l'infertilité masculine. Toutefois, les facteurs enzymatiques qui contribuent au maintien de l'équilibre intra-tissulaire du cholestérol n'ont pas été étudiés. Cette étude a pour but de tester l'hypothèse que le maintien des taux de cholestérol compatibles avec la spermatogenèse nécessite une coordination de la fonction intracellulaire des enzymes HMG-CoA réductase, ACAT1 et ACAT2 et la HSL. Méthodes: Nous avons analysé l'expression de l’ARNm et de la protéine de ces enzymes dans les fractions enrichies en tubules séminifères (STf) de vison durant le développement postnatal et le cycle reproductif annuel et dans les fractions enrichies en tissu interstitiel (ITf) et de STf durant le développement postnatal chez la souris. Nous avons développé deux nouvelles techniques pour la mesure de l'activité enzymatique de la HMG-CoA réductase et de celle de l'ACAT1 et ACAT2. En outre, l'immunohistochimie a été utilisée pour localiser les enzymes dans le testicule. Enfin, les souris génétiquement déficientes en HSL, en SR-BI et en CD36 ont été utilisées pour élucider la contribution de la HMG-CoA réductase, l'ACAT1 et l'ACAT2 et la HSL à l'homéostasie du cholestérol. Résultats: 1) HMG-CoA réductase: (Vison) La variation du taux d’expression de l’ARNm de la HMG-CoA réductase était corrélée à celle de l'isoforme de 90 kDa de la protéine HMG-CoA réductase durant le développement postnatal et chez l'adulte durant le cycle reproductif saisonnier. L'activité enzymatique de la HMG-CoA réductase augmentait de façon concomitante avec le taux protéinique pour atteindre son niveau le plus élevé à 240 jours (3.6411e-7 mol/min/μg de protéines) au cours du développement et en Février (1.2132e-6 mol/min/μg de protéines) durant le cycle reproductif chez l’adulte. (Souris), Les niveaux d'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase étaient maximales à 42 jours. A l'opposé, le taux protéinique diminuait au cours du développement. 2) HSL: (Vison), l'expression de la protéine de 90 kDa de la HSL était élevée à 180- et 240 jours après la naissance, ainsi qu'en Janvier durant le cycle saisonnier chez l'adulte. L'activité enzymatique de la HSL augmentait durant le développement pour atteindre un pic à 270 jours (36,45 nM/min/μg). Chez l'adulte, l'activité enzymatique de la HSL était maximale en Février. (Souris) Le niveau d’expression de l'ARNm de la HSL augmentait significativement à 21-, 28- et 35 jours après la naissance concomitamment avec le taux d'expression protéinique. L'activité enzymatique de la HSL était maximale à 42 jours suivie d'une baisse significative chez l'adulte. 3) ACAT-1 et ACAT-2: Le présent rapport est le premier à identifier l’expression de l'ACAT-1 et de l'ACAT-2 dans les STf de visons et de souris. (Vison) L'activité enzymatique de l'ACAT-2 était maximale à la complétion du développement à 270 jour (1190.00 CPMB/200 μg de protéines) et en janvier (2643 CPMB/200 μg de protéines) chez l'adulte. En revanche, l'activité enzymatique de l'ACAT-1 piquait à 90 jours et en août respectivement durant le développement et chez l'adulte. (Souris) Les niveaux d'expression de l'ARNm et la protéine de l'ACAT-1 diminuait au cours du développement. Le taux de l'ARNm de l'ACAT-2, à l’opposé du taux protéinique, augmentait au cours du développement. L'activité enzymatique de l'ACAT-1 diminuait au cours du développement tandis que celle de l'ACAT-2 augmentait pour atteindre son niveau maximal à 42 jours. 4) Souris HSL-/ -: Le taux d’expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase diminuaient significativement dans les STf de souris HSL-/- comparés aux souris HSL+/+. Par contre, les taux de l'ARNm et les niveaux des activités enzymatiques de l'ACAT-1 et de l'ACAT-2 étaient significativement plus élevés dans les STf de souris HSL-/- comparés aux souris HSL+/+ 5) Souris SR-BI-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-1 étaient plus basses dans les STf de souris SR-BI-/- comparées aux souris SR-BI+/+. A l'opposé, le taux d'expression de l'ARNm et l'activité enzymatique de la HSL étaient augmentées chez les souris SR-BI-/- comparées aux souris SR-BI+/+. 6) Souris CD36-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-2 étaient significativement plus faibles tandis que celles de la HSL et de l'ACAT-1 étaient inchangées dans les STf de souris CD36-/- comparées aux souris CD36+/+. Conclusion: Nos résultats suggèrent que: 1) L'activité enzymatique de la HMG-CoA réductase et de la HSL sont associées à l'activité spermatogénétique et que ces activités ne seraient pas régulées au niveau transcriptionnel. 2) L'ACAT-1 et de l'ACAT-2 sont exprimées dans des cellules différentes au sein des tubules séminifères, suggérant des fonctions distinctes pour ces deux isoformes: l'estérification du cholestérol libre dans les cellules germinales pour l'ACAT-1 et l'efflux du cholestérol en excès dans les cellules de Sertoli au cours de la spermatogenèse pour l'ACAT-2. 3) La suppression génétique de la HSL diminuait la HMG-CoA réductase et augmentait les deux isoformes de l'ACAT, suggérant que ces enzymes jouent un rôle critique dans le métabolisme du cholestérol intratubulaire. 4) La suppression génétique des transporteurs sélectifs de cholestérol SR-BI et CD36 affecte l'expression (ARNm et protéine) et l'activité des enzymes HMG-CoA réductase, HSL, ACAT-1 et ACAT-2, suggérant l'existence d’un effet compensatoire entre facteurs enzymatiques et non-enzymatiques du métabolisme du cholestérol dans les fractions tubulaires. Ensemble, les résultats de notre étude suggèrent que les enzymes impliquées dans la régulation du cholestérol intratubulaire agissent de concert avec les transporteurs sélectifs de cholestérol dans le but de maintenir l'homéostasie du cholestérol intra-tissulaire du testicule. / Introduction: Cholesterol homeostasis is essential for the synthesis of testosterone in interstitial tissue and the production of fertile gametes in the seminiferous tubules of the testis. Intracelluar cholesterol equilibrium in the testis is delicately maintained and regulated by enzymatic factors. The absence of one or more enzymes (HMG-CoA reductase, HSL and ACAT) has been implicated in the development of male infertility. However, the enzymatic factors that contribute to the maintenance of cholesterol equilibrium have not been investigated. This study is to test the hypothesis that the coordinated function of intracellular enzymes, HMG-CoA reductase, HSL and ACAT isoforms, are the basis of a system that helps to maintain cholesterol equilibrium during spermatogenesis. Methods: We characterized mRNA and protein expression levels of these enzymes in mink seminiferous tubules-enriched fraction (STf) during development and the annual reproductive cycle; or in mouse interstitial tissue-enriched fraction (ITf) and STf during postnatal development. Two novel techniques were developed to measure the HMG-CoA reductase, HSL and ACAT activities in mink and mouse STf. Additionally, immunohistochemistry was used to localize the enzymes in the testis. Finally, HSL knockout (KO) infertile male mice and selective cholesterol transporter (SR-BI, CD36) KO mice were used to elucidate the contribution of HMG-CoA reductase, HSL and ACAT isoforms in testicular cholesterol homeostasis when the enzyme or cholesterol transport system was genetically impeded. Results: 1) HMG-CoA reductase: (In mink STf), HMG-CoA reductase mRNA levels were relatively independent of 90kDa protein expression during development and the seasonal cycle. HMG-CoA reductase activity increased independently of its protein expression and reached maximal values by day 240 (3.6411e-7 mol/min/μg protein) during development and peaked in February (1.2132e-6 mol/min/μg protein) during the seasonal cycle. (In mouse STf), HMG-CoA reductase mRNA levels and enzymatic activity peaked by 42 days before decreasing while the protein levels tended to decrease steadily. 2) HSL: (In mink STf), an increase of 90kDa HSL protein expression by day 180- and 240 after birth as well as in January in seasonal cycle, was not related to the enzyme mRNA expression. HSL activity increased progressively through development and peaked by 270 days (36.45 nM/min/μg); another high HSL activity was shown in February. (In mouse STf), three significant elevations in HSL mRNA levels by day 21, 28, and 35 corresponded to a steady elevation of HSL protein expression throughout development. HSL activity peaked by day 42 but decreased remarkably in the adult. 3) ACAT-1 and ACAT-2: This is the first report to establish the presence of both ACAT-1 and ACAT-2 in the mink and mouse testis. (In mink STf), ACAT-2 activity reached its maximal value at 1190.00 CPMB/200μg protein by day 270 and 2643 CPMB/200μg protein in January. In contrast, ACAT-1 activity peaked by day 90 or in August during the seasonal cycle. (In mouse STf), ACAT-1 mRNA and protein levels were both decreased throughout development; ACAT-2 mRNA levels changes in the opposite direction of the protein levels, increasing throughout development. ACAT-1 activity in STf decreased throughout the development; while ACAT-2 activity increased significantly during development and peaked by day 42. 4) HSL-/- mice: KO HSL gene caused a decrease of HMG-CoA redutase mRNA expression and enzymatic activity in STf. However, ACAT-1 and ACAT-2 mRNA levels and enzymatic activities significantly increased in STf. 5) SR-BI-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-1 were statistically decreased in STf; whereas HSL mRNA level and activity were increased. 6) CD36-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-2 were significantly decreased in STf; while HSL and ACAT-1 mRNA levels and activities remained constant. Conclusion: These results suggest that 1) Activation of HMG-CoA reductase and HSL is associated with spermatogenetic activity, while the enzymatic activities may not only be regulated transcriptionally. 2) ACAT-1 and ACAT-2 are expressed in different cells of the tubules, suggesting distinct functions for these two closely related enzyme isoforms, with ACAT-1 being related to cholesterol esterification in germ cells and with ACAT-2 being associated with the removal of excessive cholesterol by Sertoli cells during spermatogenesis. 3) Genetically blocking HSL reduced the activity of HMG-CoA reductase while increasing activity of ACAT isoforms, suggesting the turn-off the enzyme in the cholesterol ester cycle may be essential for the accumulation of cholesterol esters in the tubules. 4) The dysfunction of intracellular cholesterol transporters affects regulation of the enzymes (HMG-CoA reductase, HSL and ACAT-1 and ACAT-2), which is presumably in response to compensatory extracellular cholesterol uptake. This study suggests that the enzymes implicated in the regulation of intracellular cholesterol may act cooperatively to maintain cholesterol homeostasis in testis.

Homéostasie du cholestérol

HMG-CoA réductase

HSL

ACAT-1

ACAT-2

Spermatogenèse

Cholesterol homeostasis

HMG-CoA reductase

Spermatogenesis