Literature DB >> 12418547

Complex I and the cAMP cascade in human physiopathology.

S Papa1, S Scacco, A M Sardanelli, V Petruzzella, R Vergari, A Signorile, Z Technikova-Dobrova.   

Abstract

A cAMP-dependent protein kinase (PKA) is localized in mammalian mitochondria with the catalytic site at the matrix side of the membrane where it phosphorylates a number of proteins. One of these is the 18 kDa(IP) subunit of the mammalian complex I of the respiratory chain, encoded by the nuclear NDUFS4 gene. Mitochondria have a Ca(2+)-inhibited phosphatase, which dephosphorylates the 18 kDa phosphoprotein of complex I. In fibroblast and myoblast cultures cAMP-dependent phosphorylation of the 18 kDa protein is associated with stimulation of complex I and overall respiratory activity with NAD-linked substrates. Mutations in the human NDUFS4 gene have been found, which in the homozygous state are associated with deficiency of complex I and fatal neurological syndrome.

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Year:  2002        PMID: 12418547     DOI: 10.1023/a:1016004921277

Source DB:  PubMed          Journal:  Biosci Rep        ISSN: 0144-8463            Impact factor:   3.840


  13 in total

1.  Mitochondrial AKAP121 links cAMP and src signaling to oxidative metabolism.

Authors:  Alessandra Livigni; Antonella Scorziello; Savina Agnese; Annagrazia Adornetto; Annalisa Carlucci; Corrado Garbi; Imma Castaldo; Lucio Annunziato; Enrico V Avvedimento; Antonio Feliciello
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Review 2.  Eukaryotic complex I: functional diversity and experimental systems to unravel the assembly process.

Authors:  Claire Remacle; M Rosario Barbieri; Pierre Cardol; Patrice P Hamel
Journal:  Mol Genet Genomics       Date:  2008-06-18       Impact factor: 3.291

3.  ATP accelerates respiration of mitochondria from rat lung and suppresses their release of hydrogen peroxide.

Authors:  Drew E Carlson; David W Pumplin; Sarvin Ghavam; Suzelle M Fiedler; William C Chiu; Thomas M Scalea
Journal:  J Bioenerg Biomembr       Date:  2005-10       Impact factor: 2.945

4.  Mitochondrial production of reactive oxygen species contributes to the β-adrenergic stimulation of mouse cardiomycytes.

Authors:  Daniel C Andersson; Jérémy Fauconnier; Takashi Yamada; Alain Lacampagne; Shi-Jin Zhang; Abram Katz; Håkan Westerblad
Journal:  J Physiol       Date:  2011-02-28       Impact factor: 5.182

5.  c-Jun N-terminal kinase (JNK)-mediated modulation of brain mitochondria function: new target proteins for JNK signalling in mitochondrion-dependent apoptosis.

Authors:  Hagen Schroeter; Clinton S Boyd; Ruhi Ahmed; Jeremy P E Spencer; Roger F Duncan; Catherine Rice-Evans; Enrique Cadenas
Journal:  Biochem J       Date:  2003-06-01       Impact factor: 3.857

6.  Localization of PTP-1B, SHP-2, and Src exclusively in rat brain mitochondria and functional consequences.

Authors:  Amal Arachiche; Olivier Augereau; Marion Decossas; Claire Pertuiset; Etienne Gontier; Thierry Letellier; Jeanne Dachary-Prigent
Journal:  J Biol Chem       Date:  2008-06-26       Impact factor: 5.157

7.  A novel mutation in NDUFS4 causes Leigh syndrome in an Ashkenazi Jewish family.

Authors:  S L Anderson; W K Chung; J Frezzo; J C Papp; J Ekstein; S DiMauro; B Y Rubin
Journal:  J Inherit Metab Dis       Date:  2008-12-26       Impact factor: 4.982

Review 8.  Energetics, epigenetics, mitochondrial genetics.

Authors:  Douglas C Wallace; Weiwei Fan
Journal:  Mitochondrion       Date:  2009-09-29       Impact factor: 4.160

9.  Hypothalamic-pituitary-thyroid axis hormones stimulate mitochondrial function and biogenesis in human hair follicles.

Authors:  Silvia Vidali; Jana Knuever; Johannes Lerchner; Melanie Giesen; Tamás Bíró; Matthias Klinger; Barbara Kofler; Wolfgang Funk; Burkhard Poeggeler; Ralf Paus
Journal:  J Invest Dermatol       Date:  2013-06-27       Impact factor: 8.551

Review 10.  Mitochondrial concept of leukemogenesis: key role of oxygen-peroxide effects.

Authors:  Boris N Lyu; Sanzhar B Ismailov; Bolat Ismailov; Marina B Lyu
Journal:  Theor Biol Med Model       Date:  2008-11-11       Impact factor: 2.432
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