Literature DB >> 8947505

Ca2+ stimulates both the respiratory and phosphorylation subsystems in rat heart mitochondria.

V Mildaziene1, R Baniene, Z Nauciene, A Marcinkeviciute, R Morkuniene, V Borutaite, B Kholodenko, G C Brown.   

Abstract

Stimulation of mitochondrial respiration by physiological concentrations of Ca2+ was studied to determine which components of oxidative phosphorylation are affected by Ca2+. The kinetic dependence of the respiratory chain, phosphorylation subsystem and proton leak on the mitochondrial membrane potential in isolated rat heart mitochondria respiring on 2-oxoglutarate or succinate was measured at two different concentrations of external free Ca2+. The results show that proton leak is not directly affected by Ca2+, but that both the respiratory and phosphorylation systems can be directly stimulated by Ca2+ depending on conditions. Although Ca2+ directly stimulates the phosphorylation system, this has relatively little effect on respiration rate with 2-oxoglutarate in States 3 and 4 because the subsystem has little control over respiration. However, in intermediate states, the phosphorylation system has greater control and Ca2+ stimulation of this system contributes substantially to the stimulation of respiration and phosphorylation. In the case of succinate oxidation neither the respiratory subsystem nor the phosphorylation system is stimulated by Ca2+.

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Year:  1996        PMID: 8947505      PMCID: PMC1217935          DOI: 10.1042/bj3200329

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  22 in total

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Authors:  A P Halestrap
Journal:  Biochim Biophys Acta       Date:  1989-03-23

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Journal:  Eur J Biochem       Date:  1990-03-10

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Authors:  J G McCormack; A P Halestrap; R M Denton
Journal:  Physiol Rev       Date:  1990-04       Impact factor: 37.312

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Authors:  F W Heineman; R S Balaban
Journal:  Annu Rev Physiol       Date:  1990       Impact factor: 19.318

5.  Proton/electron stoichiometry of mitochondrial complex I estimated from the equilibrium thermodynamic force ratio.

Authors:  G C Brown; M D Brand
Journal:  Biochem J       Date:  1988-06-01       Impact factor: 3.857

6.  Relation between phosphate metabolites and oxygen consumption of heart in vivo.

Authors:  L A Katz; J A Swain; M A Portman; R S Balaban
Journal:  Am J Physiol       Date:  1989-01

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Authors:  B Wan; K F LaNoue; J Y Cheung; R C Scaduto
Journal:  J Biol Chem       Date:  1989-08-15       Impact factor: 5.157

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Authors:  K F LaNoue; F M Jeffries; G K Radda
Journal:  Biochemistry       Date:  1986-11-18       Impact factor: 3.162

9.  Characterization of the effects of Ca2+ on the intramitochondrial Ca2+-sensitive enzymes from rat liver and within intact rat liver mitochondria.

Authors:  J G McCormack
Journal:  Biochem J       Date:  1985-11-01       Impact factor: 3.857

10.  Influence of NAD-linked dehydrogenase activity on flux through oxidative phosphorylation.

Authors:  R Moreno-Sánchez; B A Hogue; R G Hansford
Journal:  Biochem J       Date:  1990-06-01       Impact factor: 3.857
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  16 in total

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Journal:  Mol Biol Rep       Date:  2002       Impact factor: 2.316

2.  Top down analysis ceramide-induced mitochondrial dysfunctions: role of mitochondrial swelling.

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Journal:  Mol Biol Rep       Date:  2002       Impact factor: 2.316

3.  Computer-aided analysis of biochemical mechanisms that increase metabolite and proton stability in the heart during severe hypoxia and generate post-ischemic PCr overshoot.

Authors:  Bernard Korzeniewski
Journal:  J Physiol Sci       Date:  2011-06-11       Impact factor: 2.781

4.  Stimulatory effects of calcium on respiration and NAD(P)H synthesis in intact rat heart mitochondria utilizing physiological substrates cannot explain respiratory control in vivo.

Authors:  Kalyan C Vinnakota; Ranjan K Dash; Daniel A Beard
Journal:  J Biol Chem       Date:  2011-07-11       Impact factor: 5.157

5.  Integrative Methods for Studying Cardiac Energetics.

Authors:  Philippe Diolez; Véronique Deschodt-Arsac; Guillaume Calmettes; Gilles Gouspillou; Laurent Arsac; Pierre Jais; Michel Haissaguerre; Pierre Dos Santos
Journal:  Methods Mol Biol       Date:  2021

6.  Effect of calcium on the oxidative phosphorylation cascade in skeletal muscle mitochondria.

Authors:  Brian Glancy; Wayne T Willis; David J Chess; Robert S Balaban
Journal:  Biochemistry       Date:  2013-04-11       Impact factor: 3.162

7.  Open-Loop Control of Oxidative Phosphorylation in Skeletal and Cardiac Muscle Mitochondria by Ca(2.).

Authors:  Kalyan C Vinnakota; Abhishek Singhal; Françoise Van den Bergh; Masoumeh Bagher-Oskouei; Robert W Wiseman; Daniel A Beard
Journal:  Biophys J       Date:  2016-02-23       Impact factor: 4.033

8.  Feedback Regulation and Time Hierarchy of Oxidative Phosphorylation in Cardiac Mitochondria.

Authors:  Kalyan C Vinnakota; Jason N Bazil; Françoise Van den Bergh; Robert W Wiseman; Daniel A Beard
Journal:  Biophys J       Date:  2016-02-23       Impact factor: 4.033

9.  Heat exposure does not alter eccentric exercise-induced increases in mitochondrial calcium and respiratory dysfunction.

Authors:  Ben Rattray; C Caillaud; P A Ruell; M W Thompson
Journal:  Eur J Appl Physiol       Date:  2011-03-18       Impact factor: 3.078

Review 10.  Mitochondrial Ca2+ concentrations in live cells: quantification methods and discrepancies.

Authors:  Celia Fernandez-Sanz; Sergio De la Fuente; Shey-Shing Sheu
Journal:  FEBS Lett       Date:  2019-05-18       Impact factor: 4.124
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