Binding properties of adaptor proteins Tollip and Tom1

Brannon, Mary Katherine

02 July 2015

Adaptor proteins, like Tollip and Tom1, facilitate cellular cargo sorting through their ubiquitin-binding domains. Tollip and Tom1 bind to each other through their TBD and GAT domains, respectively, whereas Tollip interacts with phosphatidylinositol-3-phosphate (PtdIns(3)P)-containing endosomal membranes. Tom1 and Tollip interaction and association with endosomes is proposed to be involved in the lysosomal degradation of polyubiquitinated cargo. Through cellular, biochemical, and biophysical techniques, we have further characterized the association of Tom1 with Tollip. Mutations in the binding interface of the Tom1 GAT and Tollip TBD complex leads to a subcellular mis-localization of both proteins, indicating that Tom1 may serve to direct Tollip to specific cellular pathways. It was determined that Tom1 inhibits the binding of Tollip to PtdIns(3)P and inhibition was reversed when mutations in the binding interface of the Tom1 GAT and Tollip TBD were present. Furthermore, it was established that, upon the binding of Tollip TBD to Tom1 GAT, ubiquitin is inhibited from binding to Tom1 GAT. It was also demonstrated that Tom1 GAT, but not Tollip TBD, can weakly bind to PtdIns(3)P. Consequently, we propose that association of Tom1 may serve to direct Tollip for involvement in specific cell signaling pathways. Gaining insight into the function of Tom1 and Tollip may lead to their use as therapeutic targets for increasing the efficiency of cargo trafficking and also for patients recovering from various cardiac injuries. / Master of Science

Tollip

Tom1

endosomal trafficking

phosphatidylinositol-3-phosphate

cellular immunofluorescence

analytical ultracentrifugation

surface plasmon resonance

nuclear magnetic resonance

Metabolismo de ácidos graxos e glicerol no tecido adiposo branco de camundongos com resistência à insulina induzida pela dieta hiperlipídica / Fatty acid and glycerol metabolism in white adipose tissue of mice with insulin resistance induced by high fat diet

Buzelle, Samyra Lopes

26 February 2016

Camundongos Swiss, quando submetidos à dieta hiperlipídica (HL), apresentam considerável ganho ponderal e de depósitos adiposos, tornando-se obesos e resistentes à insulina. O objetivo deste trabalho foi avaliar o efeito da dieta HL por 8 semanas no perfil inflamatório, síntese de triacilglicerol (TAG) com ênfase na vias de geração de glicerol-3-fosfato (G3P) e lipólise nos tecidos adiposos brancos (TAB) retroperitoneal (RETRO) e epididimal (EPI) de camundongos. Camundongos Swiss foram alimentados com as dietas: controle (CT) - dieta purificada (AIN-93G); ou HL - dieta AIN-93G modificada contendo 35% de lipídeos (4% de óleo de soja e 31% de gordura suína). Os camundongos alimentados com a dieta HL apresentaram uma maior massa corporal, acompanhada pelo aumento nos tecidos RETRO e EPI, além de desenvolverem resistência à insulina constatada no teste de tolerância à glicose (TTG), hiperglicemia e hiperinsulinemia. O conteúdo protéico da pAKT, avaliado por western blot (WB), e a adiponectina, dosada em homogenados dos tecidos adiposos, estão reduzidos apenas no EPI. Houve aumento na expressão gênica de MCP-1 e PAI-1, e foi observada menor área dos adipócitos no EPI, sem alteração no RETRO dos animais HL. A síntese de novo de ácidos graxos (AG), avaliada pela incorporação de 3H de 3H2O em AG foi maior em ambos os TAB, porém a captação de AG das lipoproteínas circulantes avaliada pela atividade e expressão da lipase lipoproteica (LPL) aumentou no EPI e reduziu no RETRO. A dieta HL induziu aumento na fosforilação do glicerol, avaliada pela atividade e conteúdo da GK que aumentaram nos dois TAB, e maior incorporação de 1-14C-glicerol em TAG no EPI. A captação de glicose in vitro e conteúdo do GLUT- 4, que indicam atividade da via glicolítica foram reduzidos no EPI e RETRO, assim como a gliceroneogênese avaliada pela incorporação de 1-14C-piruvato em TAG, sem alterações na atividade e conteúdo da fosfoenolpiruvato carboxiquinase (PEPCK). A atividade lipolítica basal foi avaliada in vitro pela liberação de glicerol por adipócitos isolados, e não foi alterada pela ingestão de dieta HL, porém quando estimulada por noradrenalina a liberação de glicerol foi menor nos animais HL, assim como as fosforilações da ATGL e HSL e conteúdo do receptor adrenérgico ?3. A dieta HL levou a uma redução no conteúdo de PPAR? e aumento de ATF3 em ambos os tecidos. No EPI houve aumento de pCREB, pSTAT3 e RGS2 em relação aos controles enquanto no RETRO a única diferença encontrada foi a menor pSTAT3. Nossos resultados demonstram que o aumento nos TAB é resultado de maior síntese e captação de AG, e que o G3P necessário para a esterificação a TAG é proveniente principalmente da fosforilação direta do glicerol pela GK; além disso, a reduzida lipólise também parece contribuir para esse quadro. Nos animais HL, o EPI parece ser mais propenso aos efeitos da dieta do que o RETRO / Swiss mice when subjected to high fat diet (HFD), shown considerable weight gain and adipose depots, becoming obese and insulin resistant. The aim of this study was to evaluate the effect of HFD diet for 8 weeks in the inflammatory profile, triacylglycerol (TAG) synthesis with emphasis in glycerol-3-phosphate (G3P) generation pathways and lipolysis in retroperitoneal (RETRO) and epididymal (EPI) white adipose tissue (WAT) of mice. Swiss mice were fed with diets: control (CT) - purified diet (AIN-93G); or HFD - purified diet (AIN-93G) plus 35% of fat (4% soybean oil and 31% of lard). Mice fed a HFD diet had a higher body mass, accompanied by an increase in RETRO and EPI tissues, in addition to developing insulin resistance, evidenced by glucose tolerance test (GTT), hyperglycemia and hyperinsulinemia. The protein content of pAKT, accessed by western blot, and adiponectin, measured in WAT homogenates, are reduced only in EPI. There was an increase in gene expression of MCP-1 and PAI-1, and was observed smaller area of adipocytes in EPI, with no change in RETRO of HFD fed animals. De novo synthesis of fatty acids (FA), evaluated by incorporation of 3H from 3H2O in FA was higher in both TAB, but the uptake of FA, from blood lipoproteins, evaluated by the activity and expression of lipoprotein lipase (LPL) was increased in EPI and reduced in RETRO. HFD induced increase in phosphorylation of glycerol, evaluated by the activity and content of glycerolkinase (GyK) which increased in both TAB and greater incorporation of 1-14C-glycerol in the TAG only in EPI. The in vitro glucose uptake and GLUT-4 content, which indicates the activity of the glycolytic pathway were reduced in EPI and RETRO, as well as glyceroneogenesis assessed by the incorporation of 1-14C- pyruvate into TAG without changes in the activity and contents of phosphoenolpyruvate carboxykinase (PEPCK). The basal lipolytic activity was evaluated in vitro by glycerol releasing from isolated adipocytes, and was not altered by HFD intake, but when stimulated by noradrenaline glycerol release was lower in HFD animals as well as the phosphorylation of ATGL and HSL and ?3 adrenergic receptor content. HFD led to a reduction in the content of PPAR gamma and an increase in ATF3 in both tissues. In EPI there was an increase in pCREB, pSTAT3 and RGS2 while in RETRO the only difference was reduced pSTAT3. Our results shown that TAB increase is result of increased FA synthesis and uptake, and G3P required for esterification TAG comes mainly from direct phosphorylation of glycerol by GyK; Furthermore, reduced lipolysis also seems to contribute to this scenario. HFD effects seem to be more prominent in EPI than in RETRO

Ácido graxo

Adipose tissue

Dieta hiperlipídica

Fat Diet

Fatty acid

Glicerol-3-fosfato

Glycerol-3-phosphate

Lipid Metabolism

Metabolismo lipídico

Tecido adiposo

Optimization Of Mannanase Production From Recombinant Aspergillus Sojae And Analysis Of Galactomannan Hydrolysis

Ozturk, Bengu

01 April 2008

Aspergillus fumigatus produces enzymes required for the hydrolysis of galactomannans like locust bean gum. Among these enzymes endo-beta-1,4 mannanase is also produced at high levels. However, the fungus is not safe for use in the food industry. Therefore, the gene encoding endo-beta-1,4-mannanase of A. fumigatus IMI 385708 was previously cloned in our laboratory into Aspergillus sojae ATCC11906 which is a safe microorganism for use in food applications. Altogether eight transformants were obtained. It was shown that some of these transformants overproduce the enzyme because of expression under the control of glyceraldehyde-3-phosphate dehydrogenase promoter and fusion to the glucoamylase signal and pro-peptide coding region of Aspergillus niger. In this study, mannanase production of these transformants was compared with A. fumigatus and A. sojae transformant AsT1 showed c. 12 fold increase with the maximum activity of 352 U/ml. The effects of initial medium pH and number of spores on activity were investigated and maximum activity was achieved at pH 7.0 and the number of spores was found as 3.6 &times / 106. Optimization of the growth conditions for maximum mannanase production in shake flasks by using the best mannanase producing transformant AsT1 was carried out by using Box-Behnken design under Response Surface Methodology. The highest beta-mannanase activity on the fourth day of cultivation at 30 &ordm / C was obtained as 363 U/ml in the optimized medium containing 7% sugar beet molasses, 0.43% NH4NO3, 0.1% K2HPO4, 0.05% MgSO4 as the weight/volume percentage at 207 rpm. On sixth day of cultivation under the optimized conditions, the highest mannanase activity was achieved as 482 U/ml which is 1.4 fold of 352 U/ml activity found on glucose medium previously. After 48 h of LBG hydrolysis by 40 U of mannanase, mannotriose, 61-galactosyl-beta-D-mannotriose and 63,64-di-alpha-galactosyl-beta-1,4-mannopentaose were found as the main products via HPLC analysis.

Q Research 179.9-180

Oxidative Stress In The Brain: Effects Of Hydroperoxides And Nitric Oxide On Glyceraldehyde 3-Phosphate Dehydrogenase And Phosphoinositide Cycle Enzymes

Vaidyanathan, V V

04 1900

In the aerobic cell, oxygen can be converted into a series of reactive metabolites, together called as "reactive oxygen species" (ROS). This large group include both radical and non-radical species such as superoxide anion (02"), hydroxyl radical ("0H), H202, nitric oxide (N0') and lipid hydroperoxides (LOOH). ROS are generated in very small amounts at all stages of aerobic life, and probably have a role in cellular regulation. However, their formation in excess leads to toxicity and damage to tissues. This situation, called 'oxidative stress', is responsible, atleast in part, to the pathophysioiogy of a number of disease states such as inflammation, arthritis, cancer, ageing, ischemia-reperfusion and several neurodegenerative disorders. Compared to other organs in the animal body, brain tissue is more vulnerable to oxidative stress. This is due to three major reasons; (1) brain has a high oxygen consumption (2) high content of polyunsaturated fatty acids and iron, that can promote lipid peroxidation, and (3) low levels of antioxidant enzymes such as catalase and glutathione peroxidase. The inability of neurons to regenerate also contributes to exacerbate an oxidant damage in the brain. The main objective of this investigation was to identify biochemical systems in the brain that are susceptible to ROS, on the following two issues: 1. What are the targets for the action of H2O2 and NO in the glycolytic cycle, the major route for the oxidation of glucose in brain? 2. What are the targets for the action of polyunsaturated fatty acids and their oxidative metabolites among the enzymes of phosphoinositide cycle (PI cycle), the ubiquitous signal transduction event in the brain? Using sheep brain cytosol , it was found that among the various glycolytic enzymes, only glyceraldehyde 3-phosphate dehydrogenase (GAPD) was inhibited by H2O2. The enzyme was purified to homogeneity from sheep brain and its inactivation with H202 was studied in detail. Commercial preparations of rabbit skeletal muscle GAPD was also used in this study. An unusual requirement of glutathione for the complete inactivtion of the enzyme by H2O2 was observed. The H2O2-inactivated GAPD was partially reactivated by prolonged treatment with thiol compounds. Using CD-spectral analysis, a significant change was found in the secondary structure in H2O2-treated GAPD. GAPD was inactivated by NO only in presence of high concentrations of DTT and after prolonged incubation. The N0-inactivated GAPD was partially reactivated by treatment with thiol compounds. A new activity, namely ADP-ribosylation (ADPR) emerged in the NO-treated mammalian, but not in yeast. GAPD, ADPR activity could be generated in GAPD through NO-independent treatments such as incubation with NADPH and aerobic dialysis. During NADPH treatment no loss of dehydrogenase activity occurred. Thus, it was concluded that loss of dehydrogenase activity and emergence of ADPR in NO-treated GAPD were not correlated but coincidental, and that NO treatment yielded small amounts of modified-GAPD that had ADPR activity. In the brain, onset of ischemia is characterized by a significant elevation in free fatty acid (FFA) levels, predominantly, arachidonic acid (AA). It is suggested that AA can be oxidised to its metabolites like prostaglandins and 15-hydroperoxy arachidonic acid (15-HPETE) and some of these might exert toxic effects during reperfusion. Using whole membranes or tissue slices prepared from rat brain, effects of polyunsaturated fatty acids and their oxidative metabolites on five enzymes of PI cycle namely PI synthase, PI and PIP kinases, agonist-stimulated PLC and DG kinase was studied. Hydroperoxides of linoleic- and arachidonic acids inactivated PI synthase selectively among the PI cycle enzymes. Interestingly, AA selectively stimulated DG kinase in neural membranes. Docasahexaenoic acid (DHA) a highly unsaturated fatty acid found in the brain, also stimulated DG kinase activity while saturated, mono-and di-unsaturated fatty acids were ineffective. It was concluded that AA and DHA have a role in modulating neural DG kinase. The data presented in the thesis indicate that ROS have selective targets in cells and the consequent protein modifications can be used to modulate cellular functions under normal and oxidative stress conditions.

Biochemistry

Brain - Physiology

Brain - Stress Enzymes

Reactive Oxygen Species (ROS)

Brain - Oxidative Stress

Oxidative Stress

Phosphoinositide Cycle

PT Cycle

Evaluation of Genes Encoding the Enzymes of the Kennedy Pathway in Soybeans with Altered Fatty Acid Profiles

McNaughton, Amy J. M.

28 June 2012

Soybean (Glycine max (L.) Merr) is the largest oil and protein crop in the world and it is grown for both oil and protein. To address the needs of both the edible oil market and industrial applications of soybean oil, fatty acid modification has been a focus of soybean breeding programs. Natural variation, mutagenesis and genetic engineering have been used to alter the fatty acid profile. Several genes, mostly desaturases, have been associated with altered fatty acid profiles but enzymes in the Kennedy Pathway have yet to be studied as another source of genetic variation for altering the fatty acid profiles. The Kennedy Pathway is also known as the oil producing pathway and consists of four enzymes: glycerol-3-phosphate acyltransferase (G3PAT); lysophosphatidic acid acyltransferase (LPAAT); phosphatidic acid phosphatase (PAP); and diacylglycerol acyltransferase 1 (DGAT1). The starting material for this pathway is glycerol-3-phosphate, which is produced from glycerol by glycerol kinase (GK), and the product of this pathway is triacylglycerol (TAG). The overall objective of this study was to elucidate the role that the Kennedy Pathway plays in determining the fatty acid profile in two ways: (1) sequencing the transcribed region of the genomic genes encoding the enzymes of GK, G3PAT, LPAAT, and DGAT1 in soybean genotypes with altered fatty acid profiles; and (2) studying their expression over seed development, across three growing temperatures. The genetic material for the study consisted of four soybean genotypes with altered fatty acid profile: RG2, RG7, RG10, and SV64-53. Results from sequencing showed that the mutations identified in G3PAT, LPAAT, and DGAT1 in the four soybean genotypes did not explain the differences in the fatty acid profiles. The expression of G3PAT, LPAAT, and DGAT1 over seed development showed that G3PAT had the lowest levels, followed by LPAAT, then DGAT1, across the growing temperatures. The differences in expression among genotypes corresponded to differences in fatty acid accumulation, suggesting that expression rather than genetic mutations in the transcribed region of the genes influenced the fatty acid profile of the genotypes in this study. In conclusion, the enzymes of the Kennedy Pathway appear to contribute to the altered fatty acid profiles observed in the soybean mutant genotypes. / Ontario Ministry of Economic Development and Innovation (formerly Ontario Ministry of Research and Innovation), BioCar Initiative, Grain Farmers of Ontario, SeCan

fatty acids

soybean

Kennedy Pathway

diacylglycerol acyltransferase 1 (DGAT1)

glycerol kinase (GK)

triacylglycerol (TAG)

Compara??o do potencial herbicida do glifosato e seus complexos met?licos atrav?s de estudo enzim?tico e de metab?litos em Glycine max e Brachiaria decumbens / Comparison of herbicide potential of glyphosate and its metal complexes by enzymatic and metabolites studies in Glycine max and Brachiaria decumbens

SILVA, Soraia John da

20 August 2015

Submitted by Jorge Silva (jorgelmsilva@ufrrj.br) on 2017-06-02T19:54:07Z No. of bitstreams: 1 2015 - Soraia John da Silva.pdf: 1762972 bytes, checksum: aae3e43996736241367a1924339662c0 (MD5) / Made available in DSpace on 2017-06-02T19:54:07Z (GMT). No. of bitstreams: 1 2015 - Soraia John da Silva.pdf: 1762972 bytes, checksum: aae3e43996736241367a1924339662c0 (MD5) Previous issue date: 2015-08-20 / CAPES / The glyphosate, herbicide used in different countries, inhibits the 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS), blocking the synthesis of aromatic amino acids. With this, it still affects the activity of phenylalanine ammonia lyase (PAL) and the concentration of metabolites in plants. Its activity was first reported as a metal chelator. Therefore, to make use of this herbicide, may be formation of complexes with metals from soil, occurring change in the effectiveness of the product and loss of minerals. Thus, to avoid such problems,this study aimed to compare the effectiveness of three forms of glyphosate: purified, previously complexed with metals, and a commercial form (Roundup WG?). The effects of glyphosate complexes with copper, cobalt and nickel with different stoichiometries and different pH values on the in vitro activity of EPSPs were evaluated. Selected complex for the first experiment in vivo were Cu421 and Co821 (first number for pH and the latter two to stoichiometry glyphosate: metal). These complexes were used in the in vivo experiment I, as well as distilled water (control), purified Roundup and glyphosate on transgenic soybean and B. decumbens. In the following experiments (II and III), mineral oil was used in all treatments to reduce leaching of the compounds. The complex selected for continuation of this study was Cu421 due to its emphasis on the results obtained in the first experiment in vivo. When comparing the effect of the compounds in Falker Chlorophyll Index (ICF) of B. decumbens compared to control, there was fall of this index when using Roundup, Cu421 and purified glyphosate (the latter only in the second experiment). Later it was analyzed fresh mass accumulation and collected fresh material for determination of enzyme activities and N-NO3- levels. The complex Cu421 caused a more significant fresh mass reduction and still allowed the increase in the content of soluble nitrate in Brachiaria decumbens, probably due to the presence of nitrate in this complex. In the case of transgenic soybean there was no significant change in ICF. The use of Roundup and the complex did not change significantly the fresh mass accumul ation in this species. The application of the purified glyphosate, however, caused increase in mass accumulation and all treatments altered soybeans in nitrate content. In experiments with mineral oil in B. decumbens, the Cu421 complex inhibited significantly the EPSPs activity, as well as purified Roundup and glyphosate (the latter only in the experiment III). No inhibition occurred in transgenic soybean. All treatments in vivo stimulated PAL activity only on weed, which suggests that the increase in this activity is a consequence of the inhibition of EPSPs and other deleterious effects of compounds on susceptible plants. This study showed that especially Cu421 complex might be used effectively as a herbicide since it inhibits EPSPs, activates the PA,L reduces fresh mass accumulation and influences photosynthesis in the tested weed. Besides, the transgenic soybean showed little sensitive to this compound, which further increases the prospect of using the same as herbicide. / O glifosato, herbicida usado mundialmente, atua inibindo a enzima 5-enolpiruvil-chiquimato- 3-fosfato-sintase (EPSPs), bloqueando a s?ntese de amino?cidos arom?ticos. Com isso, ainda influencia a atividade de fenilalanina am?nia liase (PAL) e a concentra??o de metab?litos nas plantas. A sua primeira a??o reportada foi como agente quelante de metais. Portanto, ao fazer uso deste herbicida, pode haver forma??o de complexos com metais do solo, ocorrendo altera??o da efic?cia do produto e defici?ncia mineral. Assim, de modo a evitar tais problemas, este trabalho teve como objetivo, comparar a efici?ncia de tr?s formas de glifosato: purificado, previamente complexado com metais, e uma das suas formas comerciais (Roundup WG?). Os efeitos de complexos de glifosato com cobre, cobalto e n?quel, sintetizados sob diferentes estequiometrias e valores de pH, foram avaliados sobre a atividade in vitro de EPSPs. Os complexos selecionados para o primeiro experimento in vivo foram: Cu421 e Co821 (primeiro n?mero referente ao pH e os dois ?ltimos ? estequiometria glifosato:metal). Estes complexos foram usados no experimento in vivo I, assim como ?gua destilada (controle), Roundup e glifosato purificado, sobre soja transg?nica e Brachiaria decumbens. Nos experimentos seguintes utilizou-se ?leo mineral em todos os tratamentos para reduzir a lixivia??o dos compostos. O complexo selecionado para continua??o deste estudo foi o Cu421 devido a seu destaque nos resultados obtidos no primeiro experimento in vivo. Ao comparar o efeito dos compostos no ?ndice de Clorofila Falker (ICF) de B. decumbens em rela??o ao controle, observou-se queda deste ?ndice ao usar Roundup, Cu421 e glifosato purificado (este ?ltimo, somente no segundo experimento). Posteriormente foi analisado ac?mulo de massa fresca e coletado material fresco para determina??o das atividades enzim?ticas e dos teores N-NO3-. O complexo Cu421 foi o que provocou maior redu??o da massa fresca e ainda possibilitou o aumento no teor sol?vel de nitrato em B. decumbens, provavelmente devido ? presen?a de nitrato neste complexo. No caso da soja transg?nica n?o houve altera??o significativa de ICF. O uso de Roundup e dos complexos n?o alterou de forma significativa o ac?mulo de massa fresca nesta esp?cie. A aplica??o do glifosato purificado, entretanto, causou incremento no ac?mulo de massa e todos os tratamentos alteraram o teor de nitrato em soja. Nos experimentos com ?leo mineral em B. decumbens, o complexo Cu421 inibiu de forma significativa a atividade de EPSPs, assim como Roundup e glifosato purificado (este ?ltimo, somente no experimento III). Em soja transg?nica n?o houve inibi??o. Todos os tratamentos in vivo estimularam a atividade de PAL somente na gram?nea, permitindo sugerir que o aumento nesta atividade seja consequ?ncia da inibi??o de EPSPs e de outros efeitos delet?rios dos compostos sobre plantas suscept?veis. O presente estudo mostrou que principalmente o complexo Cu421 pode vir a ser utilizado de forma eficaz como herbicida, uma vez que inibe a EPSPs, ativa a PAL, reduz ac?mulo de massa fresca e influencia a fotoss?ntese na planta daninha testada. E, em contrapartida, a soja transg?nica mostrou-se pouco sens?vel a este composto, o que aumenta ainda mais a perspectiva do uso do mesmo como herbicida.

Phenylalanine ammonia lyase

Falker Chlorophyll Index

Fenilalanina am?nia liase

?ndice de Clorofila Falker

Qu?mica Biol?gica

Metabolismo de ácidos graxos e glicerol no tecido adiposo branco de camundongos com resistência à insulina induzida pela dieta hiperlipídica / Fatty acid and glycerol metabolism in white adipose tissue of mice with insulin resistance induced by high fat diet

Samyra Lopes Buzelle

26 February 2016

Camundongos Swiss, quando submetidos à dieta hiperlipídica (HL), apresentam considerável ganho ponderal e de depósitos adiposos, tornando-se obesos e resistentes à insulina. O objetivo deste trabalho foi avaliar o efeito da dieta HL por 8 semanas no perfil inflamatório, síntese de triacilglicerol (TAG) com ênfase na vias de geração de glicerol-3-fosfato (G3P) e lipólise nos tecidos adiposos brancos (TAB) retroperitoneal (RETRO) e epididimal (EPI) de camundongos. Camundongos Swiss foram alimentados com as dietas: controle (CT) - dieta purificada (AIN-93G); ou HL - dieta AIN-93G modificada contendo 35% de lipídeos (4% de óleo de soja e 31% de gordura suína). Os camundongos alimentados com a dieta HL apresentaram uma maior massa corporal, acompanhada pelo aumento nos tecidos RETRO e EPI, além de desenvolverem resistência à insulina constatada no teste de tolerância à glicose (TTG), hiperglicemia e hiperinsulinemia. O conteúdo protéico da pAKT, avaliado por western blot (WB), e a adiponectina, dosada em homogenados dos tecidos adiposos, estão reduzidos apenas no EPI. Houve aumento na expressão gênica de MCP-1 e PAI-1, e foi observada menor área dos adipócitos no EPI, sem alteração no RETRO dos animais HL. A síntese de novo de ácidos graxos (AG), avaliada pela incorporação de 3H de 3H2O em AG foi maior em ambos os TAB, porém a captação de AG das lipoproteínas circulantes avaliada pela atividade e expressão da lipase lipoproteica (LPL) aumentou no EPI e reduziu no RETRO. A dieta HL induziu aumento na fosforilação do glicerol, avaliada pela atividade e conteúdo da GK que aumentaram nos dois TAB, e maior incorporação de 1-14C-glicerol em TAG no EPI. A captação de glicose in vitro e conteúdo do GLUT- 4, que indicam atividade da via glicolítica foram reduzidos no EPI e RETRO, assim como a gliceroneogênese avaliada pela incorporação de 1-14C-piruvato em TAG, sem alterações na atividade e conteúdo da fosfoenolpiruvato carboxiquinase (PEPCK). A atividade lipolítica basal foi avaliada in vitro pela liberação de glicerol por adipócitos isolados, e não foi alterada pela ingestão de dieta HL, porém quando estimulada por noradrenalina a liberação de glicerol foi menor nos animais HL, assim como as fosforilações da ATGL e HSL e conteúdo do receptor adrenérgico ?3. A dieta HL levou a uma redução no conteúdo de PPAR? e aumento de ATF3 em ambos os tecidos. No EPI houve aumento de pCREB, pSTAT3 e RGS2 em relação aos controles enquanto no RETRO a única diferença encontrada foi a menor pSTAT3. Nossos resultados demonstram que o aumento nos TAB é resultado de maior síntese e captação de AG, e que o G3P necessário para a esterificação a TAG é proveniente principalmente da fosforilação direta do glicerol pela GK; além disso, a reduzida lipólise também parece contribuir para esse quadro. Nos animais HL, o EPI parece ser mais propenso aos efeitos da dieta do que o RETRO / Swiss mice when subjected to high fat diet (HFD), shown considerable weight gain and adipose depots, becoming obese and insulin resistant. The aim of this study was to evaluate the effect of HFD diet for 8 weeks in the inflammatory profile, triacylglycerol (TAG) synthesis with emphasis in glycerol-3-phosphate (G3P) generation pathways and lipolysis in retroperitoneal (RETRO) and epididymal (EPI) white adipose tissue (WAT) of mice. Swiss mice were fed with diets: control (CT) - purified diet (AIN-93G); or HFD - purified diet (AIN-93G) plus 35% of fat (4% soybean oil and 31% of lard). Mice fed a HFD diet had a higher body mass, accompanied by an increase in RETRO and EPI tissues, in addition to developing insulin resistance, evidenced by glucose tolerance test (GTT), hyperglycemia and hyperinsulinemia. The protein content of pAKT, accessed by western blot, and adiponectin, measured in WAT homogenates, are reduced only in EPI. There was an increase in gene expression of MCP-1 and PAI-1, and was observed smaller area of adipocytes in EPI, with no change in RETRO of HFD fed animals. De novo synthesis of fatty acids (FA), evaluated by incorporation of 3H from 3H2O in FA was higher in both TAB, but the uptake of FA, from blood lipoproteins, evaluated by the activity and expression of lipoprotein lipase (LPL) was increased in EPI and reduced in RETRO. HFD induced increase in phosphorylation of glycerol, evaluated by the activity and content of glycerolkinase (GyK) which increased in both TAB and greater incorporation of 1-14C-glycerol in the TAG only in EPI. The in vitro glucose uptake and GLUT-4 content, which indicates the activity of the glycolytic pathway were reduced in EPI and RETRO, as well as glyceroneogenesis assessed by the incorporation of 1-14C- pyruvate into TAG without changes in the activity and contents of phosphoenolpyruvate carboxykinase (PEPCK). The basal lipolytic activity was evaluated in vitro by glycerol releasing from isolated adipocytes, and was not altered by HFD intake, but when stimulated by noradrenaline glycerol release was lower in HFD animals as well as the phosphorylation of ATGL and HSL and ?3 adrenergic receptor content. HFD led to a reduction in the content of PPAR gamma and an increase in ATF3 in both tissues. In EPI there was an increase in pCREB, pSTAT3 and RGS2 while in RETRO the only difference was reduced pSTAT3. Our results shown that TAB increase is result of increased FA synthesis and uptake, and G3P required for esterification TAG comes mainly from direct phosphorylation of glycerol by GyK; Furthermore, reduced lipolysis also seems to contribute to this scenario. HFD effects seem to be more prominent in EPI than in RETRO

Ácido graxo

Dieta hiperlipídica

Glicerol-3-fosfato

Metabolismo lipídico

Tecido adiposo

Adipose tissue

Fat Diet

Fatty acid

Glycerol-3-phosphate

Lipid Metabolism

Brain Hypometabolism and Seizures: The Dynamics of Hypoxia and Hypoglycemia in Brain Energy Homeostasis

Dwyer, Trisha A.

28 December 2011

No description available.

Biomedical Research

Neurosciences

Ischemia

Hypoxia

Hypoglycemia

Seizures

Glyceraldehyde 3-phosphate dehydrogenase

GABA receptor

Glycolysis

Ketogenic diet

2-deoxyglucose

Pentose phosphate pathway

Métabolisme du glucose et du glycérol dans la cellule pancréatique β et les hépatocytes et identification des voies de détoxification du glucose

Mugabo, Yves

08 1900

No description available.

Métabolisme du glucose et des lipides

métabolisme mitochondriale

cellule β pancréatique

hépatocyte

sécrétion d’insuline

gluco-détoxification

glucolipotoxicité

glycérol-3-phosphate phosphatase

diabète de type 2

facteurs de couplages métabolique

Glucose and lipid metabolism

Mitochondrial metabolism

pancreatic β-cell

hepatocyte

insulin secretion

gluco-detoxification

glucolipotoxicity

glycerol-3-phosphate phosphatase

type 2 diabetes

metabolic coupling factors

Rôle de l'estérification des acides gras dans la régulation de la sécrétion d'insuline et le stress métabolique induits par le glucose

Barbeau, Annie

04 1900

Le diabète est une maladie chronique de l’homéostasie du glucose caractérisée par une hyperglycémie non contrôlée qui est le résultat d’une défaillance de la sécrétion d’insuline en combinaison ou non avec une altération de l’action de l’insuline. La surnutrition et le manque d’activité physique chez des individus qui ont des prédispositions génétiques donnent lieu à la résistance à l’insuline. Pendant cette période dite de compensation où la concentration d’acides gras plasmatiques est élevée, l’hyperinsulinémie compense pleinement pour la résistance à l’insuline des tissus cibles et la glycémie est normale. Le métabolisme du glucose par la cellule pancréatique bêta entraîne la sécrétion d’insuline. Selon le modèle classique de la sécrétion d’insuline induite par le glucose, l’augmentation du ratio ATP/ADP résultant de la glycolyse et de l’oxydation du glucose, induit la fermeture des canaux KATP-dépendant modifiant ainsi le potentiel membranaire suivi d’un influx de Ca2+. Cet influx de Ca2+ permet l’exocytose des granules de sécrétion contenant l’insuline. Plusieurs nutriments comme les acides gras sont capables de potentialiser la sécrétion d’insuline. Cependant, le modèle classique ne permet pas d’expliquer cette potentialisation de la sécrétion d’insuline par les acides gras. Pour expliquer l’effet potentialisateur des acides gras, notre laboratoire a proposé un modèle complémentaire où le malonyl-CoA dérivé du métabolisme anaplérotique du glucose inhibe la carnitine palmitoyltransférase-1, l’enzyme qui constitue l’étape limitante de l’oxydation des acides gras favorisant ainsi leur estérification et donc la formation de dérivés lipidiques signalétiques. Le modèle anaplérotique/lipidique de la sécrétion d'insuline induite par le glucose prédit que le malonyl-CoA dérivé du métabolisme du glucose inhibe la bêta-oxydation des acides gras et augmente la disponibilité des acyl-CoA ou des acides gras non-estérifiés. Les molécules lipidiques agissant comme facteurs de couplage du métabolisme des acides gras à l'exocytose d'insuline sont encore inconnus. Des travaux réalisés par notre laboratoire ont démontré qu’en augmentant la répartition des acides gras vers la bêta-oxydation, la sécrétion d’insuline induite par le glucose était réduite suggérant qu’un des dérivés de l’estérification des acides gras est important pour la potentialisation sur la sécrétion d’insuline. En effet, à des concentrations élevées de glucose, les acides gras peuvent être estérifiés d’abord en acide lysophosphatidique (LPA), en acide phosphatidique (PA) et en diacylglycérol (DAG) et subséquemment en triglycérides (TG). La présente étude a établi l’importance relative du processus d’estérification des acides gras dans la production de facteurs potentialisant la sécrétion d’insuline. Nous avions émis l’hypothèse que des molécules dérivées des processus d’estérification des acides gras (ex : l’acide lysophosphatidique (LPA) et le diacylglycerol (DAG)) agissent comme signaux métaboliques et sont responsables de la modulation de la sécrétion d’insuline en présence d’acides gras. Afin de vérifier celle-ci, nous avons modifié le niveau d’expression des enzymes clés contrôlant le processus d’estérification par des approches de biologie moléculaire afin de changer la répartition des acides gras dans la cellule bêta. L’expression des différents isoformes de la glycérol-3-phosphate acyltransférase (GPAT), qui catalyse la première étape d’estérification des acides gras a été augmenté et inhibé. Les effets de la modulation de l’expression des isoenzymes de GPAT sur les processus d’estérifications, sur la bêta-oxydation et sur la sécrétion d’insuline induite par le glucose ont été étudiés. Les différentes approches que nous avons utilisées ont changé les niveaux de DAG et de TG sans toutefois altérer la sécrétion d’insuline induite par le glucose. Ainsi, les résultats de cette étude n’ont pas associé de rôle pour l’estérification de novo des acides gras dans leur potentialisation de la sécrétion d’insuline. Cependant, l’estérification des acides gras fait partie intégrante d’un cycle de TG/acides gras avec sa contrepartie lipolytique. D’ailleurs, des études parallèles à la mienne menées par des collègues du laboratoire ont démontré un rôle pour la lipolyse et un cycle TG/acides gras dans la potentialisation de la sécrétion d’insuline par les acides gras. Parallèlement à nos études des mécanismes de la sécrétion d’insuline impliquant les acides gras, notre laboratoire s’intéresse aussi aux effets négatifs des acides gras sur la cellule bêta. La glucolipotoxicité, résultant d’une exposition chronique aux acides gras saturés en présence d’une concentration élevée de glucose, est d’un intérêt particulier vu la prépondérance de l’obésité. L’isoforme microsomal de GPAT a aussi utilisé comme outil moléculaire dans le contexte de la glucolipotoxicité afin d’étudier le rôle de la synthèse de novo de lipides complexes dans le contexte de décompensation où la fonction des cellules bêta diminue. La surexpression de l’isoforme microsomal de la GPAT, menant à l’augmentation de l’estérification des acides gras et à une diminution de la bêta-oxydation, nous permet de conclure que cette modification métabolique est instrumentale dans la glucolipotoxicité. / Diabetes is a chronic disease of glucose homeostasis characterized by hyperglycemia and the result of a failure of insulin secretion in combination or not with impaired insulin action. Overnutrition and lack of physical activity in individuals who have acquired or inherited genetic predispositions lead to insulin resistance. During the period of compensation where the concentration of plasma fatty acids is high, hyperinsulinemia fully compensates for the insulin resistance of target tissues and blood sugar is normal. Glucose promotes insulin secretion through its metabolism by the pancreatic β cell. According to the classical model of glucose-induced insulin secretion, the increase in the ATP/ADP ratio resulting from glycolysis and glucose oxidation induces the closure of KATP channels thus changing membrane potential followed by an influx of Ca2+. This influx of Ca2+ allows the exocytosis of secretory granules containing insulin. Several nutrients like fatty acids are capable of potentiating insulin secretion. However, the classical model does not explain the potentiation of insulin secretion by fatty acids. To explain the potentiating effect of fatty acids, our laboratory has proposed a complementary model in which malonyl-CoA derived from glucose anaplerotic metabolism inhibits carnitine palmitoyltransferase 1, the enzyme catalyzing the limiting step of fatty acid oxidation, thereby promoting their esterification and thus the formation signaling derivatives. The anaplerotic model of insulin secretion predicts that malonyl-CoA derived from glucose metabolism inhibits β-oxidation of fatty acids and increases the availability of acyl-CoA or non esterified fatty acids. Thus, lipid molecules can act as coupling factors for insulin exocytosis. Fatty acid-derived signalling molecules that are active remain to be identified. Work performed by our laboratory has shown that increasing the partition of fatty acids toward β-oxidation reduced glucose-induced insulin secretion, suggesting that derivatives of fatty acid esterification are important for the potentiation of insulin secretion. Indeed, at high concentrations of glucose, fatty acids are esterified into lysophosphatidic acid (LPA), phosphatidic acid (PA) and diacylglycerol (DAG) and subsequently in triglycerides (TG). The present study established the relative importance fatty acid esterification in the production of factors potentiating insulin secretion. We hypothesized that molecules derived from the process of esterification of fatty acid (eg lysophosphatidic acid (LPA) and diacylglycerol (DAG)) act as metabolic signals and are responsible for the modulation of the secretion of insulin in the presence of fatty acids. Thus, the level of expression of key enzymes controlling the process of esterification has been altered by molecular biology approaches to increase distribution of fatty acids toward esterification in the β cell. The expression of various isoforms of glycerol-3-phosphate acyltransferase (GPAT), which catalyzes the first step of esterification of fatty acids was increased and inhibited. The effects of GPAT isoenzyme modulation on the esterification process, on β-oxidation and on glucose-induced insulin secretion were investigated. The various approaches we used have changed the levels of DAG and TG without altering insulin secretion induced by glucose in the presence or absence of fatty acids. Thus, the results of this study do not suggest a role for de novo synthesis of glycerolipid intermidiates via esterification of fatty acids in the potentiation of insulin secretion. However, the esterification of fatty acids is an integral part of a TG/fatty acid cycle with its counterpart lipolysis. Moreover, parallel studies conducted by colleagues of the laboratory have demonstrated a role for lipolysis and a cycle TG/fatty acid in the potentiation of insulin secretion by fatty acids. In parallel with our studies of the mechanisms of insulin secretion involving fatty acids, our laboratory is also interested in the negative effects of fatty acids on the β cell. The glucolipotoxicity resulting from chronic exposure to saturated fatty acids in the presence of high glucose concentrations is of particular interest in the context of obesity rates. The microsomal isoform of GPAT was also used as a molecular tool under glucolipotoxicity conditions to study the role of de novo synthesis of complex lipids in the context of decompensation when β-cell function decreases. Increased esterification of fatty acids by the overexpression of microsomal isoform of GPAT has increased the toxic effects of fatty acids in the context of glucolipotoxicity. Thus, our results allow us to conclude that the distribution of lipids toward esterification and a decrease in β-oxidation is instrumental in glucolipotoxicity.

Sécrétion d'insuline

Métabolisme des acides gras

Glucolipotoxicité

Glycérol-3-phosphate acyltransférase

Facteurs de couplage métabolique

Cellules bêta pancréatiques

Insulin secretion

Fatty acid metabolism

Pancreatic beta cells

Metabolic coupling factors

Glucolipotoxicity