L. K. Trofimova scite author profile

Mitochondria are tightly linked to cellular nutrient sensing, and provide not only energy, but also intermediates for the de novo synthesis of cellular compounds including amino acids. Mitochondrial metabolic enzymes as generators and/or targets of signals are therefore important players in the distribution of intermediates between catabolic and anabolic pathways. The highly regulated 2-oxoglutarate dehydrogenase complex (OGDHC) participates in glucose oxidation via the tricarboxylic acid cycle. It occupies an amphibolic branch point in the cycle, where the energy-producing reaction of the 2-oxoglutarate degradation competes with glutamate (Glu) synthesis via nitrogen incorporation into 2-oxoglutarate. To characterize the specific impact of the OGDHC inhibition on amino acid metabolism in both plant and animal mitochondria, a synthetic analog of 2-oxoglutarate, namely succinyl phosphonate (SP), was applied to living systems from different kingdoms, both in situ and in vivo. Using a high-throughput mass spectrometry-based approach, we showed that organisms possessing OGDHC respond to SP by significantly changing their amino acid pools. By contrast, cyanobacteria which lack OGDHC do not show perturbations in amino acids following SP treatment. Increases in Glu, 4-aminobutyrate and alanine represent the most universal change accompanying the 2-oxoglutarate accumulation upon OGDHC inhibition. Other amino acids were affected in a species-specific manner, suggesting specific metabolic rearrangements and substrate availability mediating secondary changes. Strong perturbation in the relative abundance of amino acids due to the OGDHC inhibition was accompanied by decreased protein content. Our results provide specific evidence of a considerable role of OGDHC in amino acid metabolism.

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Consequences of the α-Ketoglutarate Dehydrogenase Inhibition for Neuronal Metabolism and Survival: Implications for Neurodegenerative Diseases

Trofimova

Araújo

Strokina³

et al. 2012

CMC

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Neurodegenerative diseases are accompanied by reduced activity of mitochondrial α-ketoglutarate dehydrogenase multienzyme complex (KGDHC). We present a new cellular model to study molecular mechanisms of this association. By application of the highly specific and efficient inhibitor of KGDHC, succinyl phosphonate (SP), to cultured neurons, we characterized the concentration- and time-dependent consequences of decreased KGDHC activity for neuronal metabolism and viability. Metabolic profiling of SP-treated neurons established accumulation of α-ketoglutarate and pyruvate as indicators of the KGDHC inhibition and ensuing impairment of pyruvate oxidation in the tricarboxylic acid cycle. Concomitant increases in alanine, glutamate and γ-aminobutyrate indicated a scavenging of the accumulated pyruvate and α-ketoglutarate by transamination and further decarboxylation of glutamate. Changes among other amino acids were in accordance with their potential to react with α-ketoglutarate or products of its transamination and serve as fuel compensating for the KGDHC block. Disturbances in neuronal amino acid pool were accompanied by changed polyamines, decreased total protein and increased thymine, suggesting increased catabolism of amino acids to decrease translation and affect DNA turnover/repair. The ensuing ATP salvage was observed as the paradoxical increase in neuronal ATP by mitochondrial inhibitor SP. Extensive exposure of neurons to SP reduced viability, as revealed by both the ATP- and NAD(P)H-dependent viability tests. Thus, we provide experimental evidence on the KGDHC impairment as a cause of neurodegeneration and decipher underlying molecular mechanisms, exposing the key regulatory complex of the tricarboxylic acid cycle as a promising target for directed regulation of neuronal function and survival.

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Hypoxic Adaptation of Mitochondrial Metabolism in Rat Cerebellum Decreases in Pregnancy

Граф

Trofimova

Ksenofontov

et al. 2020

Cells

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Function of brain amino acids as neurotransmitters or their precursors implies changes in the amino acid levels and/or metabolism in response to physiological and environmental challenges. Modelling such challenges by pregnancy and/or hypoxia, we characterize the amino acid pool in the rat cerebellum, quantifying the levels and correlations of 15 amino acids and activity of 2-oxoglutarate dehydrogenase complex (OGDHC). The parameters are systemic indicators of metabolism because OGDHC limits the flux through mitochondrial TCA cycle, where amino acids are degraded and their precursors synthesized. Compared to non-pregnant state, pregnancy increases the cerebellar content of glutamate and tryptophan, decreasing interdependence between the quantified components of amino acid metabolism. In response to hypoxia, the dependence of cerebellar amino acid pool on OGDHC and the average levels of arginine, glutamate, lysine, methionine, serine, phenylalanine, and tryptophan increase in non-pregnant rats only. This is accompanied by a higher hypoxic resistance of the non-pregnant vs. pregnant rats, pointing to adaptive significance of the hypoxia-induced changes in the cerebellar amino acid metabolism. These adaptive mechanisms are not effective in the pregnancy-changed metabolic network. Thus, the cerebellar amino acid levels and OGDHC activity provide sensitive markers of the physiology-dependent organization of metabolic network and its stress adaptations.

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Up-regulation of 2-oxoglutarate dehydrogenase as a stress response

Граф

Trofimova

Loshinskaja

et al. 2013

The International Journal of Biochemistry & Cell Biology

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Role of 2-oxoglutarate dehydrogenase in brain pathologies involving glutamate neurotoxicity

Граф

Kabysheva

Klimuk

et al. 2009

Journal of Molecular Catalysis B: Enzymatic

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L. K. Trofimova

On the role of the mitochondrial 2-oxoglutarate dehydrogenase complex in amino acid metabolism

Consequences of the α-Ketoglutarate Dehydrogenase Inhibition for Neuronal Metabolism and Survival: Implications for Neurodegenerative Diseases

Hypoxic Adaptation of Mitochondrial Metabolism in Rat Cerebellum Decreases in Pregnancy

Up-regulation of 2-oxoglutarate dehydrogenase as a stress response

Role of 2-oxoglutarate dehydrogenase in brain pathologies involving glutamate neurotoxicity

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