Intrinsic mitochondrial DNA repair defects in Ataxia Telangiectasia

•We determined various parameters of mitochondrial dysfunction in ATM deficient cells.•MtDNA repair is also defective in the absence of ATM.•From the mtDNA repair proteins analyzed, only Lig3 levels are reduced in the absence of ATM.•We propose that lower levels of Lig3 in the absence of ATM are lim...

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Bibliographic Details
Published in:DNA repair 2014-01, Vol.13, p.22-31
Main Authors: Sharma, Nilesh K., Lebedeva, Maria, Thomas, Terace, Kovalenko, Olga A., Stumpf, Jeffrey D., Shadel, Gerald S., Santos, Janine H.
Format: Article
Language:English
Subjects:
Animals
Ataxia Telangiectasia
Ataxia Telangiectasia - genetics
Ataxia Telangiectasia - metabolism
Ataxia Telangiectasia - pathology
Ataxia Telangiectasia Mutated Proteins - genetics
ATM
Biomarkers, Tumor
Cell Line
DNA ligase 3
DNA Ligase ATP
DNA Ligases - genetics
DNA Ligases - metabolism
DNA Repair
DNA, Mitochondrial - genetics
DNA, Mitochondrial - metabolism
Gene Expression Regulation
Gene Knockdown Techniques
Humans
Leupeptins - pharmacology
Mice
Mice, Knockout
Mitochondria
Mitochondria - genetics
Mitochondria - metabolism
Mitochondria - pathology
Mitochondrial DNA repair
Nervous System - metabolism
Nervous System - pathology
Poly-ADP-Ribose Binding Proteins
Xenopus Proteins
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Summary:•We determined various parameters of mitochondrial dysfunction in ATM deficient cells.•MtDNA repair is also defective in the absence of ATM.•From the mtDNA repair proteins analyzed, only Lig3 levels are reduced in the absence of ATM.•We propose that lower levels of Lig3 in the absence of ATM are limiting for mtDNA repair and associated to mitochondrial dysfunction in Ataxia Telangiectasia. Ataxia Telangiectasia (A-T) is a progressive childhood disorder characterized most notably by cerebellar degeneration and predisposition to cancer. A-T is caused by mutations in the kinase ATM, a master regulator of the DNA double-strand break response. In addition to DNA-damage signaling defects, A-T cells display mitochondrial dysfunction that is thought to contribute to A-T pathogenesis. However, the molecular mechanism leading to mitochondrial dysfunction in A-T remains unclear. Here, we show that lack of ATM leads to reduced mitochondrial DNA (mtDNA) integrity and mitochondrial dysfunction, which are associated to defective mtDNA repair. While protein levels of mtDNA repair proteins are essentially normal, in the absence of ATM levels specifically of DNA ligase III (Lig3), the only DNA ligase working in mitochondria is reduced. The reduction of Lig3 is observed in different A-T patient cells, in brain and pre-B cells derived from ATM knockout mice as well as upon transient or stable knockdown of ATM. Furthermore, pharmacological inhibition of Lig3 in wild type cells phenocopies the mtDNA repair defects observed in A-T patient cells. As targeted deletion of LIG3 in the central nervous system causes debilitating ataxia in mice, reduced Lig3 protein levels and the consequent mtDNA repair defect may contribute to A-T neurodegeneration. A-T is thus the first disease characterized by diminished Lig3.
ISSN:1568-7864
1568-7856
DOI:10.1016/j.dnarep.2013.11.002