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Potentially diagnostic electron paramagnetic resonance spectra elucidate the underlying mechanism of mitochondrial dysfunction in the deoxyguanosine kinase deficient rat model of a genetic mitochondrial DNA depletion syndrome.

Authors :
Bennett, Brian
Helbling, Daniel
Meng, Hui
Jarzembowski, Jason
Geurts, Aron M.
Friederich, Marisa W.
Van Hove, Johan L.K.
Lawlor, Michael W.
Dimmock, David P.
Source :
Free Radical Biology & Medicine. Mar2016, Vol. 92, p141-151. 11p.
Publication Year :
2016

Abstract

A novel rat model for a well-characterized human mitochondrial disease, mitochondrial DNA depletion syndrome with associated deoxyguanosine kinase (DGUOK) deficiency, is described. The rat model recapitulates the pathologic and biochemical signatures of the human disease. The application of electron paramagnetic (spin) resonance (EPR) spectroscopy to the identification and characterization of respiratory chain abnormalities in the mitochondria from freshly frozen tissue of the mitochondrial disease model rat is introduced. EPR is shown to be a sensitive technique for detecting mitochondrial functional abnormalities in situ and, here, is particularly useful in characterizing the redox state changes and oxidative stress that can result from depressed expression and/or diminished specific activity of the distinct respiratory chain complexes. As EPR requires no sample preparation or non-physiological reagents, it provides information on the status of the mitochondrion as it was in the functioning state. On its own, this information is of use in identifying respiratory chain dysfunction; in conjunction with other techniques, the information from EPR shows how the respiratory chain is affected at the molecular level by the dysfunction. It is proposed that EPR has a role in mechanistic pathophysiological studies of mitochondrial disease and could be used to study the impact of new treatment modalities or as an additional diagnostic tool. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
08915849
Volume :
92
Database :
Academic Search Index
Journal :
Free Radical Biology & Medicine
Publication Type :
Academic Journal
Accession number :
113256592
Full Text :
https://doi.org/10.1016/j.freeradbiomed.2016.01.001