Literature DB >> 15377857

The integration of mitochondrial calcium transport and storage.

David G Nicholls1, Susan Chalmers.   

Abstract

The extraordinary capacity of isolated mitochondria to accumulate Ca(2+) has been established for more than 40 years. The distinct kinetics of the independent uptake and efflux pathways accounts for the dual functionality of the transport process to either modulate matrix free Ca(2+) concentrations or to act as temporary stores of large amounts of Ca(2+) in the presence of phosphate. One puzzle has been the nature of the matrix calcium phosphate complex, since matrix free Ca(2+) seems to be buffered in the region of 1-5 microM in the presence of phosphate while millimolar Ca(2+) remains soluble in in vitro media. The key seems to be the elevated matrix pH and the third-power relationship of the PO(4)(3-) concentration with pH. Taking this into account we may now finally have a model that explains the major features of physiological mitochondrial Ca(2+) transport.

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Year:  2004        PMID: 15377857     DOI: 10.1023/B:JOBB.0000041753.52832.f3

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


  24 in total

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Journal:  J Bioenerg Biomembr       Date:  1982-12       Impact factor: 2.945

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Journal:  Biochem J       Date:  1978-11-15       Impact factor: 3.857

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Authors:  A L Lehninger
Journal:  Proc Natl Acad Sci U S A       Date:  1974-04       Impact factor: 11.205
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  56 in total

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Journal:  Phys Med Biol       Date:  2016-07-20       Impact factor: 3.609

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Authors:  Alfonsas Juska
Journal:  J Membr Biol       Date:  2006-09-20       Impact factor: 1.843

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Authors:  Daniel A Kane; Evgeny V Pavlov
Journal:  Channels (Austin)       Date:  2013-09-13       Impact factor: 2.581

4.  Calcium overload decreases net free radical emission in cardiac mitochondria.

Authors:  Quynh V Duong; Adrianna Hoffman; Katie Zhong; Maria J Dessinger; Yizhu Zhang; Jason N Bazil
Journal:  Mitochondrion       Date:  2020-01-23       Impact factor: 4.160

5.  Repetitive nerve stimulation transiently opens the mitochondrial permeability transition pore in motor nerve terminals of symptomatic mutant SOD1 mice.

Authors:  Khanh T Nguyen; John N Barrett; Luis García-Chacón; Gavriel David; Ellen F Barrett
Journal:  Neurobiol Dis       Date:  2011-02-18       Impact factor: 5.996

6.  The Psi(m) depolarization that accompanies mitochondrial Ca2+ uptake is greater in mutant SOD1 than in wild-type mouse motor terminals.

Authors:  Khanh T Nguyen; Luis E García-Chacón; John N Barrett; Ellen F Barrett; Gavriel David
Journal:  Proc Natl Acad Sci U S A       Date:  2009-01-27       Impact factor: 11.205

Review 7.  Mitochondrial Ca2+ uptake pathways.

Authors:  Pia A Elustondo; Matthew Nichols; George S Robertson; Evgeny V Pavlov
Journal:  J Bioenerg Biomembr       Date:  2016-09-24       Impact factor: 2.945

Review 8.  Mitochondrial calcium signalling and cell death: approaches for assessing the role of mitochondrial Ca2+ uptake in apoptosis.

Authors:  György Hajnóczky; György Csordás; Sudipto Das; Cecilia Garcia-Perez; Masao Saotome; Soumya Sinha Roy; Muqing Yi
Journal:  Cell Calcium       Date:  2006-10-30       Impact factor: 6.817

9.  Dynamic buffering of mitochondrial Ca2+ during Ca2+ uptake and Na+-induced Ca2+ release.

Authors:  Christoph A Blomeyer; Jason N Bazil; David F Stowe; Ranjan K Pradhan; Ranjan K Dash; Amadou K S Camara
Journal:  J Bioenerg Biomembr       Date:  2012-12-07       Impact factor: 2.945

10.  NCLX is an essential component of mitochondrial Na+/Ca2+ exchange.

Authors:  Raz Palty; William F Silverman; Michal Hershfinkel; Teresa Caporale; Stefano L Sensi; Julia Parnis; Christiane Nolte; Daniel Fishman; Varda Shoshan-Barmatz; Sharon Herrmann; Daniel Khananshvili; Israel Sekler
Journal:  Proc Natl Acad Sci U S A       Date:  2009-12-15       Impact factor: 11.205
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