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Epigenetics Volume 7, 2012 - Issue 4
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Review

Mitochondrial regulation of epigenetics and its role in human diseases

Sheroy Minocherhomji Wilhelm Johannsen Centre for Functional Genome Research; Institute for Cellular and Molecular Medicine; University of Copenhagen; Copenhagen, DenmarkCorrespondence[email protected]
,
Trygve O. Tollefsbol Department of Biology; University of Alabama at Birmingham; Birmingham, AL USA; Center for Aging; University of Alabama at Birmingham; Birmingham, AL USA
&
Keshav K. Singh UAB Comprehensive Cancer Center; Department of Genetics; School of Medicine; University of Alabama at Birmingham; Birmingham, AL USACorrespondence[email protected]
Pages 326-334 | Received 12 Jan 2012, Accepted 31 Jan 2012, Published online: 01 Apr 2012
 
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Abstract

Most pathogenic mitochondrial DNA (mtDNA) mutations induce defects in mitochondrial oxidative phosphorylation (OXPHOS). However, phenotypic effects of these mutations show a large degree of variation depending on the tissue affected. These differences are difficult to reconcile with OXPHOS as the sole pathogenic factor suggesting that additional mechanisms contribute to lack of genotype and clinical phenotype correlationship. An increasing number of studies have identified a possible effect on the epigenetic landscape of the nuclear genome as a consequence of mitochondrial dysfunction. In particular, these studies demonstrate reversible or irreversible changes in genomic DNA methylation profiles of the nuclear genome. Here we review how mitochondria damage checkpoint (mitocheckpoint) induces epigenetic changes in the nucleus. Persistent pathogenic mutations in mtDNA may also lead to epigenetic changes causing genomic instability in the nuclear genome. We propose that “mitocheckpoint” mediated epigenetic and genetic changes may play key roles in phenotypic variation related to mitochondrial diseases or host of human diseases in which mitochondrial defect plays a primary role.

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