DEFAR - Departamento de Farmácia

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Resultados da Pesquisa

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    Regulation of sugar transport systems in Fusarium oxysporum var. lini.
    (1990) Brandão, Rogélio Lopes; Dias, Maria da Conceição Loureiro
    Fusarium oxysporum var. Iini (ATCC 10960) formed a facilitated diffusion system for glucose (Ks, about 10 mM) when grown under repressed conditions. Under conditions of derepression, the same system was present together with a high-affinity (K5, about 40 ,iM) active system. The maximum velocity of the latter was about 5% of that of the facilitated diffusion system. The high-affinity system was under the control of glucose repression and glucose inactivation. When lactose was the only carbon source in the medium, a facilitated diffusion system for lactose was found (Ks, about 30 mM).
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    Molecular cloning of a gene involved in glucose sensing in the yeast Saccharomyces cerevisiae.
    (1993) Aelst, Linda Van; Hohmann, Stefan; Bulaya, Botchaka; Koning, Wim de; Sierkstra, Laurens; Neves, Maria José; Luyten, Kattie; Alijo, Rafael; Ramos, José; Coccetti, Paola; Martegani, Enzo; Rocha, Neuza Maria de Magalhaes; Brandão, Rogélio Lopes; Dijck, Patrick Van; Vanhalewyn, Mieke; Durnez, Peter; Jans, Arnold W. H; Thevelein, Johan Maria
    Cells of the yeast Saccharomyces cerevisiae display a wide range of glucose-induced regulatory phenomena, including glucose-induced activation of the RAS-adenylate cyclase pathway and phosphatidylinosrtot turnover, rapid post-translatronal effects on the activity of different enzymes as well as long-term effects at the transcriptional level. A gene called GGS1 (for general Glucose Sensor) that is apparently required for the glucose-induced regulatory effects and several ggsi aHeles (fic/pf, bypi and cifi) has been cloned and characterized. A GGS1 homologue is present in Methanobacterium thermoautotrophicum. Yeast ggsi mutants are unable to grow on glucose or Received 25 November, 1992; revised and accepted 15 February, 1993. •For correspondence. Tel. (16) 220931; Fax (16) 204415. tThese two authors contributed equally to this paper. related readily fermentable sugars, apparently owing to unrestricted influx of sugar Into glycolysis, resulting in its rapid deregulation. Levels of intracellular free glucose and metabolites measured over a period of a few minutes after addition of glucose to cells of a ggsi^ strain are consistent with our previous suggestion of a functional interaction between a sugar transporter, a sugar kinase and the GGS1 gene product. Such a glucose-sensing system might both restrict the influx of glucose and activate several signal transduction pathways, leading to the wide range of glucose-induced regulatory phenomena. Deregulation of these pathways in ggsi mutants might explain phenotypic defects observed in the absence of glucose, e.g. the inability of ggsi diploids to sporulate.
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    Possible involvement of a phosphatidylinositol-type signaling pathway in glucose-induced activation of plasma membrane ATPase and cellular proton in the yeast Sacchamyces cerevisiae.
    (1994) Brandão, Rogélio Lopes; Rocha, Neuza Maria de Magalhaes; Alijo, Rafael; Ramos, José; Thevelein, Johan Maria
    Addition of glucose to cells of the yeast Saccharomyces cerevisiae causes rapid activation of plasma membrane H+-ATPase and a stimulation of cellular H ÷ extrusion. We show that addition of diacylglycerol and other activators of protein kinase C to intact cells also activates the H+-ATPase and causes at the same time a stimulation of H ÷ extrusion from the cells. Both effects are reversed by addition of staurosporine, a protein kinase C inhibitor. Addition of staurosporine or calmidazolium, an inhibitor of Ca2+/calmodulin-dependent protein kinases, separately, causes a partial inhibition of glucose-induced H+-ATPase activation and stimulation of cellular H + extrusion; together they cause a more potent inhibition. Addition of neomycin, which complexes with phosphatidylinositol 4,5-bisphosphate, or addition of compound 48/80, a phospholipase C inhibitor, also causes near complete inhibition. Diacylglycerol and other protein kinase C activators had no effect on the activity of the K+-uptake system and the activity of trehalase and glucose-induced activation of the K+-uptake system and trehalase was not inhibited by neomycin, supporting the specificity of the effects observed on the H+-ATPase. The results support a model in which glucose-induced activation of H+-ATPase is mediated by a phosphatidylinositol-type signaling pathway triggering phosphorylation of the enzyme both by protein kinase C and one or more Ca2+/calmodulin-dependent protein kinases.
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    During the initiation of fermentation overexpression of hexokinase PII in yeast transiently causes a similar deregulation of glycolysis as deletion of Tps1.
    (1998) Ernandes, José Roberto; Meirsman, Catherine; Rolland, Filip; Winderickx, Joris; Winde, Johannes de; Brandão, Rogélio Lopes; Thevelein, Johan Maria
    In the yeast Saccharomyces cerevisiae a novel control exerted by TPS1 (=GGS1=FDP1=BYP1=CIF1 =GLC6=TSS1)-encoded trehalose-6-phosphate synthase, is essential for restriction of glucose influx into glycolysis apparently by inhibiting hexokinase activity in vivo. We show that up to 50-fold overexpression of hexokinase does not noticeably affect growth on glucose or fructose in wild-type cells. However, it causes higher levels of glucose-6-phosphate, fructose-6-phosphate and also faster accumulation of fructose-1,6-bisphosphate during the initiation of fermentation. The levels of ATP and Pi correlated inversely with the higher sugar phosphate levels. In the first minutes after glucose addition, the metabolite pattern observed was intermediate between those of the tps1Ä mutant and the wild-type strain. Apparently, during the start-up of fermentation hexokinase is more rate-limiting in the first section of glycolysis than phosphofructokinase. We have developed a method to measure the free intracellular glucose level which is based on the simultaneous addition of D-glucose and an equal concentration of radiolabelled L-glucose. Since the latter is not transported, the free intracellular glucose level can be calculated as the difference between the total D-glucose measured (intracellular+periplasmic/extracellular) and the total L-glucose measured (periplasmic/extracellular). The intracellular glucose level rose in 5 min after addition of 100 mM-glucose to 0·5–2 mM in the wild-type strain, &10 mM in a hxk1Ä hxk2Ä glk1Ä and 2–3 mM in a tps1Ä strain. In the strains overexpressing hexokinase PII the level of free intracellular glucose was not reduced. Overexpression of hexokinase PII never produced a strong effect on the rate of ethanol production and glucose consumption. Our results show that overexpression of hexokinase does not cause the same phenotype as deletion of Tps1. However, it mimics it transiently during the initiation of fermentation. Afterwards, the Tps1-dependent control system is apparently able to restrict properly up to 50-fold higher hexokinase activity.
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    Cyclic AMP and low molecular weight effector(s) present in yeast extract are involved in pectin lyase production by Penicillium griseoroseum cultured on glucose.
    (1999) Pereira, Maria Cristina Baracat; Coelho, Jorge Luiz Cavalcante; Minussi, Rosana Cristina; Alves, Virgínia Maria Chaves; Brandão, Rogélio Lopes; Silva, Daison Olzany
    Pectin lyase (PL) induction by organic and inorganic components of yeast extract (YE) was evaluated in Penicillium griseoroseum, cultured in a mineral medium containing sucrose, by determining PL activity (A235) and mycelial growth (mycelial dry weight). The lowest YE concentration that promoted significant PL induction without acting as a carbon source for the fungus corresponded to 0.0075%. Neither calcined YE nor a nutrient solution containing micronutrients induced PL production, indicating that the inducer was an organic compound. Vitamins, phospholipid components, amino acids, and nitrogenous bases were tested in place of YE and promoted no significant PL induction. A PL inducer compound was found to be soluble in the nucleotide fraction obtained during extraction of YE. The inducer was shown to be a thermostable polar substance dialyzable at 2000 Daltons, hydrolyzable by HCl, and activated by boiling for up to 60 min. Cyclic AMP (cAMP) exogenously added to the culture medium at 5 and 10 mM was capable of inducing PL in P. griseoroseum grown on sucrose, suggesting that at least one compound may be present in YE acting in a cooperative fashion for the maintenance of high levels of cAMP into the cell. PL activity and the level of cAMP inside the fungal cells increased after the addition of YE to the culture medium, suggesting the participation of this messenger in this enzyme’s synthesis.
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    New aspects of the glucose activation of the H-ATPase in the yeast Saccharomyces cerevisae.
    (2001) Souza, Marco Antônio Andrade de; Trópia, Maria José Magalhães; Brandão, Rogélio Lopes
    The glucose-induced activation of plasma membrane ATPase from Saccharomyces cerevisiae was first described by Serrano in 1983. Many aspects of this signal transduction pathway are still obscure. In this paper, evidence is presented for the involvement of Snf3p as the glucose sensor related to this activation process. It is shown that, in addition to glucose detection by Snf3p, sugar transport is also necessary for activation of the ATPase. The participation of the G protein, Gpa2p, in transducing the internal signal (phosphorylated sugars) is also demonstrated. Moreover, the involvement of protein kinase C in the regulation of ATPase activity is confirmed. Finally, a model pathway is presented for sensing and transmission of the glucose activation signal of the yeast HM-ATPase.
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    Regulation of the N-acetyl-beta-D-glucosaminidase produced by Trichoderma harzianum : evidence that cAMP controls the expression.
    (2004) Silva, Roberto do Nascimento; Silva, Silvana Petrofeza da; Brandão, Rogélio Lopes; Ulhoa, Cirano José
    Trichoderma harzianum is a filamentous fungus reported to be a producer of extracellular N-acetyl-β-D-glucosaminidase (NAGase) when grown in chitin-containing medium. An approximately 64-kDa protein with NAGase activity was purified by gel filtration and ion exchange chromatography. The involvement of cyclic AMP (cAMP) in the synthesis of NAGase from T. harzianum in chitin-containing medium was also investigated. Molecules that increase the intracellular levels of cAMP, including caffeine, aluminium tetrafluoride and dinitrophenol, were used. Western blot analysis showed that NAGase synthesis was repressed by increasing the levels of intracellular cAMP. Using specific nag primers in a reverse transcription-polymerase chain reaction-based approach, NAGase synthesis was shown to be regulated at the level of gene transcription.
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    Effect of substrate and pH on the activity of proteases from Fusarium oxysporum var. lini.
    (1991) Castro, Ieso de Miranda; Lima, Angélica Alves; Paula, Carmem Aparecida de; Nicoli, Jacques Robert; Brandão, Rogélio Lopes
    The results obtained in this work suggest that both the pH (through selective inhibition) and the carbon source (through repression and acidification or alkalinization of the medium) may play an important role in the distribution of extracellular proteases in Fusarium oxysporum var. lini.
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    Glucose induced activation of the plasma membrane ATPase in Fusarium oxysporum.
    (1992) Brandão, Rogélio Lopes; Castro, Ieso de Miranda; Passos, Jomar Becher dos; Nicoli, Jacques Robert; Thevelein, Johan Maria
    Addition of glucose and other sugars to derepressed cells of the fungus Fusarium oxysporum var. Zini triggered activation of the plasma membrane H+-ATPase within 5 min. Glucose was the best activator while galactose and lactose had a lesser effect. The activation was not prevented by previous addition of cycloheximide and it was fully reversible when the glucose was removed. The activation process in uiuo also caused changes in the kinetic properties of the enzyme. The non-activated enzyme had an apparent K, of about 3.2 mM for ATP whereas the activated enzyme showed an apparent K,,, of 0.26 mM. In addition, the pH optimum of the H+-ATPase changed from 6.0 to 7.5 upon activation. The activated enzyme was more sensitive to inhibition by vanadate. When F. oxysporum was cultivated in media containing glucose as the major carbon source, enhanced M+-ATPase activity was largely confined to the period corresponding to the lag phase, i.e. just before the start of acidification of the medium. This suggests that the activation process might play a role in the onset of extracellular acidification. Addition of glucose to F. oxysporum var. Zini cells also caused an increase in the cAMP level. No reliable increase could be demonstrated for the other sugars. Addition of proton ionophores such as DNP and CCCP at pH 5-0 caused both a large increase in the intracellular level of cAMP and in the activity of the plasma membrane H+- ATPase. Inhibition of the DNP-induced increase in the cAMP level by acridine orange also resulted in inhibition of the activation of plasma membrane H+-ATPase. These results suggest a possible causal relationship between the activity of F. oxysporum var. Zini plasma membrane H+-ATPase and the intracellular level of CAMP.
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    Intracellular signal triggered by cholera toxin in Saccharomyces boulardii and Saccharomyces cerevisiae.
    (1998) Brandão, Rogélio Lopes; Castro, Ieso de Miranda; Bambirra, Eduardo Alves; Amaral, Sheila Coutinho; Fietto, Luciano Gomes; Trópia, Maria José Magalhães; Neves, Maria José; Santos, Raquel Gouvêa dos; Gomes, Newton Carlos Marcial; Nicoli, Jacques Robert
    As is the case for Saccharomyces boulardii, Saccharomyces cerevisiae W303 protects Fisher rats against cholera toxin (CT). The addition of glucose or dinitrophenol to cells of S. boulardii grown on a nonfermentable carbon source activated trehalase in a manner similar to that observed for S. cerevisiae. The addition of CT to the same cells also resulted in trehalase activation. Experiments performed separately on the A and B subunits of CT showed that both are necessary for activation. Similarly, the addition of CT but not of its separate subunits led to a cyclic AMP (cAMP) signal in both S. boulardii and S. cerevisiae. These data suggest that trehalase stimulation by CT probably occurred through the cAMP-mediated protein phosphorylation cascade. The requirement of CT subunit B for both the cAMP signal and trehalase activation indicates the presence of a specific receptor on the yeasts able to bind to the toxin, a situation similar to that observed for mammalian cells. This hypothesis was reinforced by experiments with 125I-labeled CT showing specific binding of the toxin to yeast cells. The adhesion of CT to a receptor on the yeast surface through the B subunit and internalization of the A subunit (necessary for the cAMP signal and trehalase activation) could be one more mechanism explaining protection against the toxin observed for rats treated with yeasts.