Literature DB >> 15906145

On the role of the respiratory complex I on membrane permeability transition.

Noemí García1, Francisco Correa, Edmundo Chávez.   

Abstract

In this work we studied permeability transition by incubating mitochondria in the presence of 50 muM Ca(2+) and malate/glutamate as substrates. This condition, besides inducing the release of pyridine nucleotides, promotes the generation of reactive oxygen-derived species by the complex I of the respiratory chain. The latter leads to the opening of the mitochondrial permeability transition pore. Ca(2+) release, mitochondrial swelling and collapse of the transmembrane electric potential, were analyzed to assess this process. We propose that the mechanism for pore opening, in addition to the oxidative stress, involves the uncoupling effect of fatty acids providing activation of phospholipase A2, lipid peroxidation, and the oxidation of membrane thiols. This proposal emerges from the data indicating the protective effect of bovine serum albumin and N-ethylmaleimide. The key role of reactive oxygen species was implied based on the fact that the scavenger alpha-phenyl-tert-butyl nitrone inhibited pore opening.

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Year:  2005        PMID: 15906145     DOI: 10.1007/s10863-005-4119-9

Source DB:  PubMed          Journal:  J Bioenerg Biomembr        ISSN: 0145-479X            Impact factor:   2.945


  42 in total

1.  On the voltage dependence of the mitochondrial permeability transition pore. A critical appraisal.

Authors:  L Scorrano; V Petronilli; P Bernardi
Journal:  J Biol Chem       Date:  1997-05-09       Impact factor: 5.157

2.  Opening of the mitochondrial permeability transition pore induces reactive oxygen species production at the level of the respiratory chain complex I.

Authors:  Cécile Batandier; Xavier Leverve; Eric Fontaine
Journal:  J Biol Chem       Date:  2004-02-11       Impact factor: 5.157

3.  Mitochondrial membrane protein thiol reactivity with N-ethylmaleimide or mersalyl is modified by Ca2+: correlation with mitochondrial permeability transition.

Authors:  A J Kowaltowski; A E Vercesi; R F Castilho
Journal:  Biochim Biophys Acta       Date:  1997-02-15

4.  Safranine as a probe of the mitochondrial membrane potential.

Authors:  K E Akerman; M K Wikström
Journal:  FEBS Lett       Date:  1976-10-01       Impact factor: 4.124

5.  Evidence for the presence of a reversible Ca2+-dependent pore activated by oxidative stress in heart mitochondria.

Authors:  M Crompton; A Costi; L Hayat
Journal:  Biochem J       Date:  1987-08-01       Impact factor: 3.857

6.  Mitochondrial calcium release as induced by Hg2+.

Authors:  E Chávez; J A Holguín
Journal:  J Biol Chem       Date:  1988-03-15       Impact factor: 5.157

7.  The mitochondrial membrane permeability transition induced by inorganic phosphate or inorganic arsenate. A comparative study.

Authors:  C Bravo; E Chávez; J S Rodríguez; R Moreno-Sánchez
Journal:  Comp Biochem Physiol B Biochem Mol Biol       Date:  1997-05       Impact factor: 2.231

8.  Membrane protein thiol cross-linking associated with the permeabilization of the inner mitochondrial membrane by Ca2+ plus prooxidants.

Authors:  M M Fagian; L Pereira-da-Silva; I S Martins; A E Vercesi
Journal:  J Biol Chem       Date:  1990-11-15       Impact factor: 5.157

9.  Long-chain fatty acids promote opening of the reconstituted mitochondrial permeability transition pore.

Authors:  M R Wieckowski; D Brdiczka; L Wojtczak
Journal:  FEBS Lett       Date:  2000-11-03       Impact factor: 4.124

Review 10.  Mitochondrial permeability transition pore opening during myocardial reperfusion--a target for cardioprotection.

Authors:  Andrew P Halestrap; Samantha J Clarke; Sabzali A Javadov
Journal:  Cardiovasc Res       Date:  2004-02-15       Impact factor: 10.787
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  8 in total

1.  Reduced capacity of Ca²+ retention in liver as compared to kidney mitochondria. ADP requirement.

Authors:  Cecilia Zazueta; Noemí García; Eduardo Martínez-Abundis; Natalia Pavón; Luz Hernández-Esquivel; Edmundo Chávez
Journal:  J Bioenerg Biomembr       Date:  2010-08-20       Impact factor: 2.945

2.  On the properties of calcium-induced permeability transition in neonatal heart mitochondria.

Authors:  Natalia Pavón; Juan Carlos Gallardo; Luz María Hernández-Esquivel; Mohammed El-Hafidi; Mabel Buelna-Chontal; Cecilia Zazueta; Sara Rodríguez-Enríquez; Edmundo Chávez
Journal:  J Bioenerg Biomembr       Date:  2011-11-23       Impact factor: 2.945

3.  Micromolar changes in lysophosphatidylcholine concentration cause minor effects on mitochondrial permeability but major alterations in function.

Authors:  Norris I Hollie; James G Cash; M Abdul Matlib; Matthew Wortman; Joshua E Basford; William Abplanalp; David Y Hui
Journal:  Biochim Biophys Acta       Date:  2013-12-05

Review 4.  The molecular composition of the mitochondrial permeability transition pore.

Authors:  Christopher P Baines
Journal:  J Mol Cell Cardiol       Date:  2009-02-20       Impact factor: 5.000

5.  Pleiotropic effects of thyroid hormones: learning from hypothyroidism.

Authors:  Martha Franco; Edmundo Chávez; Oscar Pérez-Méndez
Journal:  J Thyroid Res       Date:  2011-06-27

6.  Mitochondrial electron transport chain in heavy metal-induced neurotoxicity: effects of cadmium, mercury, and copper.

Authors:  Elena A Belyaeva; Tatyana V Sokolova; Larisa V Emelyanova; Irina O Zakharova
Journal:  ScientificWorldJournal       Date:  2012-04-24

Review 7.  Cadmium-Induced Cytotoxicity: Effects on Mitochondrial Electron Transport Chain.

Authors:  Jacopo Junio Valerio Branca; Alessandra Pacini; Massimo Gulisano; Niccolò Taddei; Claudia Fiorillo; Matteo Becatti
Journal:  Front Cell Dev Biol       Date:  2020-11-30

8.  Flow cytometric analysis of ca-induced membrane permeability transition of isolated rat liver mitochondria.

Authors:  Teruo Umegaki; Yuya Okimura; Hirofumi Fujita; Hiromi Yano; Jitsuo Akiyama; Masayasu Inoue; Kozo Utsumi; Junzo Sasaki
Journal:  J Clin Biochem Nutr       Date:  2008-01       Impact factor: 3.114
  8 in total

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