An NMR and enzyme study of carbon metabolism in Neisseria meningitidis

Leighton, Matthew Peter

January 1999

No description available.

579

The oxidation of tricarboxylic acid cycle intermediates and related compounds by Penicillium chrysogenum

Casida, Lester Earl,

January 1953

Thesis (Ph. D.)--University of Wisconsin--Madison, 1953. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 57-58).

The Influence of Oxygen Tension and Glycolytic and Citric Acid Cycle Substrates in Acrolein-induced Cellular Injury in the Differentiated H9c2 Cardiac Cell Model

Coyle, Jayme

04 November 2016

Most in vitro systems employ the standard cell culture maintenance conditions of 95 % air with 5 % CO2 to balance medium pH, which translates to culture oxygen tensions of approximately 20 % - above the typical ≤ 6 % found in most tissues. The current investigation, therefore, aims to characterize the effect of maintenance and toxicant exposure with a particular focus on the α,β-unsaturated aldehyde, acrolein, in the presence of physiologically relevant oxygen tension using a differentiated H9c2 cardiomyoblast subclone. H9c2 cells were maintained separately in 20.1 and 5 % oxygen, after which cells were differentiated for five days, and then exposed to acrolein in media containing varying concentrations of tricarboxylic acid and glycolytic substrates. Cells were then assessed for viability and metabolism via the MTT conversion assay. H9c2 cells were assessed for mechanistic elucidation to characterize contributors to cellular death, including mitochondrial membrane potential (ΔΨm) reductions (JC-1), intracellular calcium influx (Fluo-4), and PARP activation. Exposure to acrolein in differing oxygen tensions revealed that standard culture cells are particularly sensitive to acrolein, but cells cultured in 5 % oxygen, depending on the medium pyruvate concentration, can be rescued significantly. Further, reductions in ΔΨm were reversed by co-exposure of 5-10 mM EGTA for both culture conditions, while intracellular calcium transients were noted only for standard cultures. The results demonstrate significant metabolic reprogramming which desensitizes differentiated H9c2 to acrolein-induced cytotoxicity. Further, PARP and extracellular calcium contribute to the fate of these cells exposed to acrolein, though clotrimazole-associated TRPM2 channels may not be significantly involved. Conclusively, significant alteration of toxicogenic response was noted in this cell line when cultured under physiologically relevant conditions, and may have a substantial impact on the reliability and predictive power and interpretive application of in vitro-based toxicity models cultured under standard culture conditions, depending on the parent tissue.

Oxygen Tension

Citric Acid Cycle

Acrolein

Differentiated H9c2 Cells

Toxicology

MiniBacillus - the construction of a minimal organism

Klewing, Anika

23 March 2020

No description available.

570

Bacillus subtilis

genome reduction

Citric acid cycle

amino acid transporter

serine

Biologie (PPN619462639)

The Citric Acid Cycle of Thiomicrospira crunogena: An Oddity Amongst the Proteobacteria

Quasem, Ishtiaque

02 November 2009

Thiomicrospira crunogena, a deep-sea hydrothermal vent chemolithoautotroph, uses the Calvin-Bensen-Bassham cycle to fix carbon. To meet its biosynthetic needs for oxaloacetate, oxoglutarate, and succinyl-coA, one would expect that this obligately autotrophic Gammaproteobacterium would use a ‘wishbone’ version of the citric acid cycle (CAC) to synthesize the intermediates necessary for biosynthesis, instead of the fully oxidative version to minimize carbon loss as carbon dioxide. However, upon examination of its complete genome sequence, it became apparent that this organism did not fulfill this expectation. Instead of a wishbone pathway, T. crunogena appears to run a fully oxidative CAC. The cycle is ‘locked’ in the oxidative direction by replacement of the reversible enzyme malate dehydrogenase with malate: quinone oxidoreductase, which is capable only of operation in the oxidative direction. Furthermore, oxoglutarate decarboxylation is catalyzed by oxoglutarate: acceptor oxidoreductase. The presence of both oxidoreductases was confirmed via assays on T. crunogena cell extracts. To determine whether this peculiar CAC was novel, complete genome sequences of ~340 Proteobacteria were examined via BLAST and COG searches in the Integrated Microbial Genome database. Genes catalyzing steps in the CAC were collected from each organism and vetted for paralogs that had adopted an alternative, ‘non-CAC’ function through genome context and cluster analysis. Alignments were made with the remaining sequences and were verified by comparing them to curated alignments at Pfam database and examination of active site residues. Phylogenetic trees were constructed from these alignments, and instances of horizontal gene transfer were determined by comparison to a 16S tree. These analyses verified that the CAC in T. crunogena is indeed unique, as it does not resemble any of the canonical cycles of the six classes of proteobacteria. Furthermore, three steps of the nine in its CAC appear to be catalyzed by enzymes encoded by genes that are likely to have been acquired via horizontal gene transfer. The gene encoding citrate synthase, and perhaps aconitase, are most closely affiliated with those present in the Cyanobacteria, while those encoding oxoglutarate: acceptor oxidoreductase cluster among the Firmicutes, and malate: quinone oxidoreductase clusters with the Epsilonproteobacteria.

Thiomicrospira crunogena

central carbon metabolism

citric acid cycle

Proteobacteria

chemolithoautotroph

American Studies

Arts and Humanities

Individual Amino Acid Supplementation Can Improve Energy Metabolism and Decrease ROS Production in Neuronal Cells Overexpressing Alpha-Synuclein

Delic, Vedad, Griffin, Jeddidiah W.D., Zivkovic, Sandra, Zhang, Yumeng, Phan, Tam Anh, Gong, Henry, Chaput, Dale, Reynes, Christian, Dinh, Vinh B., Cruz, Josean, Cvitkovic, Eni, Placides, Devon, Frederic, Ernide, Mirzaei, Hamed, Stevens, Stanley M., Jinwal, Umesh, Lee, Daniel C., Bradshaw, Patrick C.

01 September 2017

Parkinson’s disease (PD) is a neurodegenerative disorder characterized by alpha-synuclein accumulation and loss of dopaminergic neurons in the substantia nigra (SN) region of the brain. Increased levels of alpha-synuclein have been shown to result in loss of mitochondrial electron transport chain complex I activity leading to increased reactive oxygen species (ROS) production. WT alpha-synuclein was stably overexpressed in human BE(2)-M17 neuroblastoma cells resulting in increased levels of an alpha-synuclein multimer, but no increase in alpha-synuclein monomer levels. Oxygen consumption was decreased by alpha-synuclein overexpression, but ATP levels did not decrease and ROS levels did not increase. Treatment with ferrous sulfate, a ROS generator, resulted in decreased oxygen consumption in both control and alpha-synuclein overexpressing cells. However, this treatment only decreased ATP levels and increased ROS production in the cells overexpressing alpha-synuclein. Similarly, paraquat, another ROS generator, decreased ATP levels in the alpha-synuclein overexpressing cells, but not in the control cells, further demonstrating how alpha-synuclein sensitized the cells to oxidative insult. Proteomic analysis yielded molecular insights into the cellular adaptations to alpha-synuclein overexpression, such as the increased abundance of many mitochondrial proteins. Many amino acids and citric acid cycle intermediates and their ester forms were individually supplemented to the cells with l-serine, l-proline, l-aspartate, or l-glutamine decreasing ROS production in oxidatively stressed alpha-synuclein overexpressing cells, while diethyl oxaloacetate or l-valine supplementation increased ATP levels. These results suggest that dietary supplementation with individual metabolites could yield bioenergetic improvements in PD patients to delay loss of dopaminergic neurons.

alpha-synuclein

amino acids

citric acid cycle

iron

metabolic therapy

mitochondrial

Parkinson’s disease

proteomics

Biomedical Sciences

Vliv antidepresiv a depresivní poruchy na mitochondriální funkce / Effects of antidepressants and depressive disorders on mitochondrial functions

Hroudová, Jana

January 2012

Mood disorders are serious diseases. Nevertheless, their pathophysiology is not sufficiently clarified. Biological markers that would facilitate the diagnosis or successful prediction of pharmacotherapy are still being sought. The aim of the study was to find out whether mitochondrial functions are affected by antidepressants, mood stabilizers and depression. Our research is based on recent hypotheses of mood disorders, the advanced monoamine hypothesis, the neurotrophic hypothesis, and the mitochondrial dysfunction hypothesis. We assume that impaired function of mitochondria leads to neuronal damage and can be related to the origin of mood disorders. Effects of antidepressants and mood stabilizers on mitochondrial functions can be related to their therapeutic or side effects. In vitro effects of pharmacologically different antidepressants and mood stabilizers on the activities of mitochondrial enzymes were measured in mitochondria isolated from pig brains (in vitro model). Activity of monoamine oxidase (MAO) isoforms was determined radiochemically, activities of other mitochondrial enzymes were measured spectrophotometrically. Overall activity of the system of oxidative phosphorylation was measured electrochemically using high- resolution respirometry. Methods were modified to measure the same...

Vliv antidepresiv a depresivní poruchy na mitochondriální funkce / Effects of antidepressants and depressive disorders on mitochondrial functions

Hroudová, Jana

January 2012

Mood disorders are serious diseases. Nevertheless, their pathophysiology is not sufficiently clarified. Biological markers that would facilitate the diagnosis or successful prediction of pharmacotherapy are still being sought. The aim of the study was to find out whether mitochondrial functions are affected by antidepressants, mood stabilizers and depression. Our research is based on recent hypotheses of mood disorders, the advanced monoamine hypothesis, the neurotrophic hypothesis, and the mitochondrial dysfunction hypothesis. We assume that impaired function of mitochondria leads to neuronal damage and can be related to the origin of mood disorders. Effects of antidepressants and mood stabilizers on mitochondrial functions can be related to their therapeutic or side effects. In vitro effects of pharmacologically different antidepressants and mood stabilizers on the activities of mitochondrial enzymes were measured in mitochondria isolated from pig brains (in vitro model). Activity of monoamine oxidase (MAO) isoforms was determined radiochemically, activities of other mitochondrial enzymes were measured spectrophotometrically. Overall activity of the system of oxidative phosphorylation was measured electrochemically using high- resolution respirometry. Methods were modified to measure the same...

Fisiopatologia do Transtorno de Humor Bipolar e efeito do tratamento com lítio: enfoque em neuroproteção e função mitocondrial / Bipolar disorder pathophysiology and the effect of lithium treatment: focus on neuroprotection and mitochondrial function

Sousa, Rafael Augusto Teixeira de

14 March 2014

Introdução: Diversas evidências apontam para um papel da disfunção mitocondrial no Transtorno de Humor Bipolar (THB), mas pouco se sabe sobre isso no THB de início recente. Na mitocôndria a atividade da cadeia transportadora de elétrons (CTE) atua juntamente com o ciclo do ácido cítrico na produção de energia, mas não está claro se estão alteradas no THB. O DNA mitocondrial (DNAmt) codifica diversas proteínas da CTE e está associado ao estresse oxidativo, mas nunca foi avaliado em pacientes no THB in vivo. O estresse oxidativo está associado ao THB e à disfunção mitocondrial, mas não se sabe muito das atividades das enzimas antioxidantes no THB de início recente. O óxido nítrico (NO) é uma molécula com efeitos neuromoduladores, mas com um papel no THB ainda não elucidado. O lítio é um tratamento padrão-ouro no THB, tendo mostrado efeitos neuroprotetores. Apesar disso, pouco se conhece do efeito do lítio na CTE, nas enzimas do ciclo do ácido cítrico, no conteúdo de DNAmt e na regulação de NO em humanos. Também não está claro o papel antioxidante do lítio no THB. Metódos: Pacientes com THB em depressão (n=31), não medicados em sua maioria (84%), foram tratados por 6 semanas com lítio. Antes e depois do tratamento, verificaram-se em leucócitos as atividades dos complexos I-IV da CTE, atividades das enzimas citrato sintase, succinato desidrogenase e malato desidrogenase e também o conteúdo de DNAmt; em plasma foram analisados os níveis de NO, substâncias reativas ao ácido tiobarbitúrico (TBARS) e as atividades de catalase (CAT), glutationa peroxidase (GPx), superóxido dismutase (SOD) e razão de SOD/CAT. Os pacientes com depressão bipolar foram comparados com 28 controles saudáveis. Resultados: Em comparação com controles, os pacientes com THB tiveram um aumento de GPx (p < 0,001) e CAT (p=0,005) e uma diminuição de SOD/CAT (p=0,001), sem outras diferenças nos demais biomarcadores. Pacientes com THB I mostraram uma diminuição de citrato sintase (p=0,02) e uma discreta diminuição do conteúdo de DNAmt (p=0,05) em comparação com o THB II; o conteúdo de DNAmt esteve ligeiramente diminuído no THB I comparado com controles (p=0,05). Do início ao fim do tratamento com lítio houve aumento da atividade do complexo I da CTE (p=0,02), diminuição de TBARS (p=0,02) e SOD (p=0,03) e aumento de NO (p=0,02), sem haver alteração de outros parâmetros. Depois do tratamento, o TBARS se mostrou diminuído em respondedores comparados a não respondedores (p=0,02) e diminuído no THB II em comparação com o THB I (p=0,04). Discussão: No THB de início recente, houve poucas alterações em biomarcadores. Os achados sugerem aumento de CAT e GPx na depressão bipolar de início recente e uma diminuição de conteúdo mitocondrial no THB I comparado com o THB II, que devem ser confirmadas por outros estudos. Os resultados reforçam um papel neuroprotetor do lítio, sugerindo que a droga aumente a atividade do complexo I da CTE mitocondrial e aumente os níveis de NO na depressão bipolar. Além disso, o lítio reforçou o seu papel antioxidante e modulador das enzimas antioxidantes no THB / Background: Several evidences point to a role for mitochondrial dysfunction in Bipolar Disorder (BD), but few is known about it on short-term BD. In mitochondria the electron transport chain (ETC) acts jointly with citric acid cycle to produce energy, but it is not clear if they are altered in BD. Mitochondrial DNA (mtDNA) encodes several ETC proteins and is associated with oxidative stress, but it was never evaluated in BD in vivo. Oxidative stress is associated with BD and with mitochondrial dysfunction, but few is known about the activities of antioxidant enzymes in short-term BD. Nitric oxide (NO) is a molecule with neuromodulatory effects, but with an unclear role in BD. Lithium is a gold-standard treatment for BD, which has shown neuroprotective effects. However, few is known about lithium effect on ETC, citric acid cycle, mtDNA content, and NO regulation in humans. Also, lithium\'s antioxidant role in BD is unclear. Methods: Patients with BD depression (n=31) unmedicated in majority (84%) received lithium treatment for 6 weeks. Before and after treatment, in leukocytes the activities of ETC complex I-IV, citrate synthase, succinate dehydrogenase, and malate dehydrogenase, and mtDNA content were evaluated; in plasma, NO levels, thiobarbituric acid reactive substances (TBARS), the activities of catalase (CAT), glutathione peroxidase (GPx), and superoxide dismutase (SOD), and SOD/CAT ratio were evaluated. Bipolar depression patients were compared with 28 healthy controls. Results: When compared with controls, BD patients showed an increase in GPx (p < 0.001) and CAT (p=0.005) and a decrease in SOD/CAT (p=0.001), but showed no difference for other biomarkers. Patients with BD I showed a decrease in citrate synthase (p=0.02) and a slight decrease in mtDNA content (p=0.05) when compared to BD II; mtDNA content was slightly decreased in BD I compared to controls (p=0.05). From baseline to endpoint, there was an increase in ETC complex I activity (p=0.02), a decrease in TBARS (p=0.02) and SOD (p=0.03) and an increase in NO (p=0.02), without change in other parameters. After treatment, TBARS was decreased in responders compared to non-responders (p=0.02) and decreased in BD II compared to BD I (p=0.04). Discussion: In short-term BD few alterations were observed on biomarkers. The findings suggest increase on CAT and GPX in short-term bipolar depression and mitochondrial content decrease in BD I when compared to BD II, which deserve other studies for confirmation. The results reinforce a lithium\'s neuroprotective role and suggest that lithium increases ETC complex I activity and NO levels in bipolar depression. Moreover, lithium reinforced its role as antioxidant and as a modulator of antioxidant enzymes in BD

Bipolar disorder

Ciclo do ácido cítrico

Citric acid cycle

DNA mitocondrial

Estresse oxidativo

Fármacos neuroprotetores

Lithium

Lítio

Mitochondria

Mitochondrial DNA

Mitocôndrias

Neuroprotective agents

Nitric oxide

Oxidative stress

Óxido nítrico

Transtorno bipolar

Fisiopatologia do Transtorno de Humor Bipolar e efeito do tratamento com lítio: enfoque em neuroproteção e função mitocondrial / Bipolar disorder pathophysiology and the effect of lithium treatment: focus on neuroprotection and mitochondrial function

Rafael Augusto Teixeira de Sousa

14 March 2014

Introdução: Diversas evidências apontam para um papel da disfunção mitocondrial no Transtorno de Humor Bipolar (THB), mas pouco se sabe sobre isso no THB de início recente. Na mitocôndria a atividade da cadeia transportadora de elétrons (CTE) atua juntamente com o ciclo do ácido cítrico na produção de energia, mas não está claro se estão alteradas no THB. O DNA mitocondrial (DNAmt) codifica diversas proteínas da CTE e está associado ao estresse oxidativo, mas nunca foi avaliado em pacientes no THB in vivo. O estresse oxidativo está associado ao THB e à disfunção mitocondrial, mas não se sabe muito das atividades das enzimas antioxidantes no THB de início recente. O óxido nítrico (NO) é uma molécula com efeitos neuromoduladores, mas com um papel no THB ainda não elucidado. O lítio é um tratamento padrão-ouro no THB, tendo mostrado efeitos neuroprotetores. Apesar disso, pouco se conhece do efeito do lítio na CTE, nas enzimas do ciclo do ácido cítrico, no conteúdo de DNAmt e na regulação de NO em humanos. Também não está claro o papel antioxidante do lítio no THB. Metódos: Pacientes com THB em depressão (n=31), não medicados em sua maioria (84%), foram tratados por 6 semanas com lítio. Antes e depois do tratamento, verificaram-se em leucócitos as atividades dos complexos I-IV da CTE, atividades das enzimas citrato sintase, succinato desidrogenase e malato desidrogenase e também o conteúdo de DNAmt; em plasma foram analisados os níveis de NO, substâncias reativas ao ácido tiobarbitúrico (TBARS) e as atividades de catalase (CAT), glutationa peroxidase (GPx), superóxido dismutase (SOD) e razão de SOD/CAT. Os pacientes com depressão bipolar foram comparados com 28 controles saudáveis. Resultados: Em comparação com controles, os pacientes com THB tiveram um aumento de GPx (p < 0,001) e CAT (p=0,005) e uma diminuição de SOD/CAT (p=0,001), sem outras diferenças nos demais biomarcadores. Pacientes com THB I mostraram uma diminuição de citrato sintase (p=0,02) e uma discreta diminuição do conteúdo de DNAmt (p=0,05) em comparação com o THB II; o conteúdo de DNAmt esteve ligeiramente diminuído no THB I comparado com controles (p=0,05). Do início ao fim do tratamento com lítio houve aumento da atividade do complexo I da CTE (p=0,02), diminuição de TBARS (p=0,02) e SOD (p=0,03) e aumento de NO (p=0,02), sem haver alteração de outros parâmetros. Depois do tratamento, o TBARS se mostrou diminuído em respondedores comparados a não respondedores (p=0,02) e diminuído no THB II em comparação com o THB I (p=0,04). Discussão: No THB de início recente, houve poucas alterações em biomarcadores. Os achados sugerem aumento de CAT e GPx na depressão bipolar de início recente e uma diminuição de conteúdo mitocondrial no THB I comparado com o THB II, que devem ser confirmadas por outros estudos. Os resultados reforçam um papel neuroprotetor do lítio, sugerindo que a droga aumente a atividade do complexo I da CTE mitocondrial e aumente os níveis de NO na depressão bipolar. Além disso, o lítio reforçou o seu papel antioxidante e modulador das enzimas antioxidantes no THB / Background: Several evidences point to a role for mitochondrial dysfunction in Bipolar Disorder (BD), but few is known about it on short-term BD. In mitochondria the electron transport chain (ETC) acts jointly with citric acid cycle to produce energy, but it is not clear if they are altered in BD. Mitochondrial DNA (mtDNA) encodes several ETC proteins and is associated with oxidative stress, but it was never evaluated in BD in vivo. Oxidative stress is associated with BD and with mitochondrial dysfunction, but few is known about the activities of antioxidant enzymes in short-term BD. Nitric oxide (NO) is a molecule with neuromodulatory effects, but with an unclear role in BD. Lithium is a gold-standard treatment for BD, which has shown neuroprotective effects. However, few is known about lithium effect on ETC, citric acid cycle, mtDNA content, and NO regulation in humans. Also, lithium\'s antioxidant role in BD is unclear. Methods: Patients with BD depression (n=31) unmedicated in majority (84%) received lithium treatment for 6 weeks. Before and after treatment, in leukocytes the activities of ETC complex I-IV, citrate synthase, succinate dehydrogenase, and malate dehydrogenase, and mtDNA content were evaluated; in plasma, NO levels, thiobarbituric acid reactive substances (TBARS), the activities of catalase (CAT), glutathione peroxidase (GPx), and superoxide dismutase (SOD), and SOD/CAT ratio were evaluated. Bipolar depression patients were compared with 28 healthy controls. Results: When compared with controls, BD patients showed an increase in GPx (p < 0.001) and CAT (p=0.005) and a decrease in SOD/CAT (p=0.001), but showed no difference for other biomarkers. Patients with BD I showed a decrease in citrate synthase (p=0.02) and a slight decrease in mtDNA content (p=0.05) when compared to BD II; mtDNA content was slightly decreased in BD I compared to controls (p=0.05). From baseline to endpoint, there was an increase in ETC complex I activity (p=0.02), a decrease in TBARS (p=0.02) and SOD (p=0.03) and an increase in NO (p=0.02), without change in other parameters. After treatment, TBARS was decreased in responders compared to non-responders (p=0.02) and decreased in BD II compared to BD I (p=0.04). Discussion: In short-term BD few alterations were observed on biomarkers. The findings suggest increase on CAT and GPX in short-term bipolar depression and mitochondrial content decrease in BD I when compared to BD II, which deserve other studies for confirmation. The results reinforce a lithium\'s neuroprotective role and suggest that lithium increases ETC complex I activity and NO levels in bipolar depression. Moreover, lithium reinforced its role as antioxidant and as a modulator of antioxidant enzymes in BD

Ciclo do ácido cítrico

DNA mitocondrial

Estresse oxidativo

Fármacos neuroprotetores

Lítio

Mitocôndrias

Óxido nítrico

Transtorno bipolar

Bipolar disorder

Citric acid cycle

Lithium

Mitochondria

Mitochondrial DNA

Neuroprotective agents

Nitric oxide

Oxidative stress