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Mutation of RRM2B, Encoding P53-controlled Ribonucleotide Reductase (p53R2), Causes Severe Mitochondrial DNA Depletion

Overview
Journal Nat Genet
Specialty Genetics
Date 2007 May 9
PMID 17486094
Citations 257
Authors
Alice Bourdon
Limor Minai
Valerie Serre
Jean-Philippe Jais
Emmanuelle Sarzi
Sophie Aubert
Dominique Chretien
Pascale de Lonlay
Veronique Paquis-Flucklinger
Hirofumi Arakawa
Yusuke Nakamura
Arnold Munnich
Agnes Rotig
Affiliations
Soon will be listed here.
Abstract

Mitochondrial DNA (mtDNA) depletion syndrome (MDS; MIM 251880) is a prevalent cause of oxidative phosphorylation disorders characterized by a reduction in mtDNA copy number. The hitherto recognized disease mechanisms alter either mtDNA replication (POLG (ref. 1)) or the salvage pathway of mitochondrial deoxyribonucleosides 5'-triphosphates (dNTPs) for mtDNA synthesis (DGUOK (ref. 2), TK2 (ref. 3) and SUCLA2 (ref. 4)). A last gene, MPV17 (ref. 5), has no known function. Yet the majority of cases remain unexplained. Studying seven cases of profound mtDNA depletion (1-2% residual mtDNA in muscle) in four unrelated families, we have found nonsense, missense and splice-site mutations and in-frame deletions of the RRM2B gene, encoding the cytosolic p53-inducible ribonucleotide reductase small subunit. Accordingly, severe mtDNA depletion was found in various tissues of the Rrm2b-/- mouse. The mtDNA depletion triggered by p53R2 alterations in both human and mouse implies that p53R2 has a crucial role in dNTP supply for mtDNA synthesis.

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