Regulation of human glutamate dehydrogenases: Implications for glutamate, ammonia and energy metabolism in brain

Plaitakis, Andreas; Zaganas, Ioannis

doi:10.1002/jnr.10054

Cited by 118 publications

(82 citation statements)

References 66 publications

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“…This can be explained by the fact that mammalian GDH is regulated allosterically by diverse compounds, such as purine nucleotides (ADP, NADH and GTP), and these are shown to influence the enzyme's activity rate as GDH is stimulated by ADP and inhibited by GTP, NADH and ATP. The oxidative deamination of glutamate by GDH induces the availability of the reduced coenzymes NADH or NADPH used in the synthesis of ATP, as can be observed in situations of energy shortage such as food restriction (Plaitakis and Zaganas, 2001).…”

Section: Discussionmentioning

confidence: 98%

Feed restriction and genetic selection on the expression and activity of metabolism regulatory enzymes in rabbits

Harten

Cardoso

2010

Animal

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This work aims at the identification of relevant intermediate metabolism enzymes contributing to improved meat production due to genetic selection. A wild rabbit (WR) breed and a highly meat selected breed (New Zealand (NZ) rabbit) were used. Food restriction was used as an experimental condition so as to enhance differences within the metabolic pathways under study. During a period of 30 days, NZ and WR experimental breeds were subjected to, respectively, 40% and 60% ad libitum food restriction leading to 17.7% and 21.1% initial weight. Hepatic glycolytic, lipidic and protein regulatory enzyme activity, transcriptional and metabolite levels were determined. Insulin-like growth factor (IGF-1), triiodothyronine, and cortisol were also evaluated. In the glycolytic pathways, the NZ control rabbits presented a higher phosphofructokinase and pyruvate kinase activity level when compared to the WR, while the latter group showed a higher expression of glycogen synthase, although with less glycogen content. In the nitrogen metabolism, our results showed a lower activity level of glutamate dehydrogenase in WR when subjected to food restriction. Within the lipid metabolism, results showed that although WR had a significantly higher mRNA hepatic lipase, non-esterified fatty acid levels were similar between the experimental groups. NZ rabbits presented a better glycemia control and greater energy substrate availability leading to enhanced productivities in which triiodothyronine and IGF-1 played a relevant role.Keywords: enzyme activity, intermediate metabolism, rabbits, regulatory enzymes, feed restriction ImplicationsThe effects of feed restriction on the intermediate metabolism of breeds of rabbits selected for meat production induce an increase over non-selected rabbits on the efficiency of metabolic systems responsible for the homeostasis with reflection on the glycemia maintenance levels and on the excretion process of protein catabolism products. According to our results, seasonal draft periods inducing food restriction might not impair the use of highly productive breeds in upgrading animal production. Further studies are necessary regarding these metabolic pathways, including integrated genomic, transcriptomic and metabolomic approaches leading to results with practical consequences that are specifically required to upgrade livestock production in areas submitted to seasonal feedstuff shortage.

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Section: Discussionmentioning

confidence: 98%

Feed restriction and genetic selection on the expression and activity of metabolism regulatory enzymes in rabbits

Harten

Cardoso

2010

Animal

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“…It is also known that two GDH isoforms (GLUD1 and GLUD2) exist in Homo sapiens (Plaitakis and Zaganas 2001). Additionally, there are two distinct forms of GDH with diVerent aYnities for glutamate, ammonia and -ketoglutarate in Richardson's ground squirrel, S. richardsonii, and entry into hibernation leads to changes in the properties of GDH that enables it to function optimally to suit the environment (Thatcher and Storey 2001).…”

Section: Discussionmentioning

confidence: 99%

Effects of hypoxia on the energy status and nitrogen metabolism of African lungfish during aestivation in a mucus cocoon

et al. 2008

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We examined the energy status, nitrogen metabolism and hepatic glutamate dehydrogenase activity in the African lungWsh Protopterus annectens during aestivation in normoxia (air) or hypoxia (2% O 2 in N 2 ), with tissues sampled on day 3 (aerial exposure with preparation for aestivation), day 6 (entering into aestivation) or day 12 (undergoing aestivation). There was no accumulation of ammonia in tissues of Wsh exposed to normoxia or hypoxia throughout the 12-day period. Ammonia toxicity was avoided by increased urea synthesis and/or decreased endogenous N production (as ammonia), but the dependency on these two mechanisms diVered between the normoxic and the hypoxic Wsh. The rate of urea synthesis increased 2.4-fold, with only a 12% decrease in the rate of N production in the normoxic Wsh. By contrast, the rate of N production in the hypoxic Wsh decreased by 58%, with no increase in the rate of urea synthesis. Using in vivo 31 P NMR spectroscopy, it was demonstrated that hypoxia led to signiWcantly lower ATP concentration on day 12 and signiWcantly lower creatine phosphate concentration on days 1, 6, 9 and 12 in the anterior region of the Wsh as compared with normoxia. Additionally, the hypoxic Wsh had lower creatine phosphate concentration in the middle region than the normoxic Wsh on day 9. Hence, lowering the dependency on increased urea synthesis to detoxify ammonia, which is energy intensive by reducing N production, would conserve cellular energy during aestivation in hypoxia. Indeed, there were signiWcant increases in glutamate concentrations in tissues of Wsh aestivating in hypoxia, which indicates decreases in its degradation and/or transamination. Furthermore, there were signiWcant increases in the hepatic glutamate dehydrogenase (GDH) amination activity, the amination/deamination ratio and the dependency of the amination activity on ADP activation in Wsh on days 6 and 12 in hypoxia, but similar changes occurred only in the normoxic Wsh on day 12. Therefore, our results indicate for the Wrst time that P. annectens exhibited diVerent adaptive responses during aestivation in normoxia and in hypoxia. They also indicate that reduction in nitrogen metabolism, and probably metabolic rate, did not occur simply in association with aestivation (in normoxia) but responded more eVectively to a combined eVect of aestivation and hypoxia.

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“…Leucine could stimulate the activity of glutamate dehydrogenase, which may be followed by a reduction of the cytosolic or vesicular transmitter glutamate pool (17). However, an increase of leucine enhances the glutamate concentration by donating amino groups and the glutamate is metabolized to the inhibitory neurotransmitter GABA (18).…”

Section: Discussionmentioning

confidence: 99%

Disturbance of Cultured Rat Neuronal Network Activity Depends on Concentration and Ratio of Leucine and α-Ketoisocaproate: Implication for Acute Encephalopathy of Maple Syrup Urine Disease

et al. 2003

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Regulation of human glutamate dehydrogenases: Implications for glutamate, ammonia and energy metabolism in brain

Cited by 118 publications

References 66 publications

Feed restriction and genetic selection on the expression and activity of metabolism regulatory enzymes in rabbits

Feed restriction and genetic selection on the expression and activity of metabolism regulatory enzymes in rabbits

Effects of hypoxia on the energy status and nitrogen metabolism of African lungfish during aestivation in a mucus cocoon

Disturbance of Cultured Rat Neuronal Network Activity Depends on Concentration and Ratio of Leucine and α-Ketoisocaproate: Implication for Acute Encephalopathy of Maple Syrup Urine Disease

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