Mitochondrial DNA mutations cause resistance to opening of the permeability transition pore

The age-related accumulation of mitochondrial DNA mutations has the potential to impair organ function and contribute to disease. In support of this hypothesis, accelerated mitochondrial mutagenesis is pathogenic in the mouse heart, and there is an increase in myocyte apoptosis. The current study so...

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Bibliographic Details
Published in:Biochimica et biophysica acta 2006-05, Vol.1757 (5), p.596-603
Main Authors: Mott, Justin L., Zhang, Dekui, Chang, Shin-Wen, Zassenhaus, H. Peter
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Apoptosis
Bcl-2
bcl-2-Associated X Protein - chemistry
BH3 Interacting Domain Death Agonist Protein - chemistry
Calcium
Calcium - physiology
Cell Death
DNA, Mitochondrial - genetics
In Vitro Techniques
Membrane Potentials
Mice
Mice, Transgenic
Mitochondria
Mitochondria, Heart - metabolism
Mitochondrial Membrane Transport Proteins - physiology
Mitochondrial Membranes - metabolism
Molecular Sequence Data
mtDNA
Mutation
Peptide Fragments - pharmacology
Permeability transition pore
Proto-Oncogene Proteins c-bcl-2 - antagonists & inhibitors
Proto-Oncogene Proteins c-bcl-2 - metabolism
Signal Transduction
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Summary:The age-related accumulation of mitochondrial DNA mutations has the potential to impair organ function and contribute to disease. In support of this hypothesis, accelerated mitochondrial mutagenesis is pathogenic in the mouse heart, and there is an increase in myocyte apoptosis. The current study sought to identify functional alterations in cell death signaling via mitochondria. Of particular interest is the mitochondrial permeability transition pore, opening of which can initiate cell death, while pore inhibition is protective. Here, we show that mitochondria from transgenic mice that develop mitochondrial DNA mutations have a marked inhibition of calcium-induced pore opening. Temporally, inhibited pore opening coincides with disease. Pore inhibition also correlates with an increase in Bcl-2 protein integrated into the mitochondrial membrane. We hypothesized that pore inhibition was mediated by mitochondrial Bcl-2. To test this hypothesis, we treated isolated mitochondria with Bcl-2 antagonistic peptides (derived from the BH3 domain of Bax or Bid). These peptides released the inhibition to pore opening. The data are consistent with a Bcl-2-mediated inhibition of pore opening. Thus, mitochondrial DNA mutations induce an adaptive–protective response in the heart that inhibits opening of the mitochondrial permeability pore.
ISSN:0005-2728
0006-3002
1879-2650
DOI:10.1016/j.bbabio.2006.04.014