Mitochondrial localization of telomerase as a determinant for hydrogen peroxide-induced mitochondrial DNA damage and apoptosis

doi:10.1093/hmg/ddl098

Human Molecular Genetics Advance Access published online on April 13, 2006
Human Molecular Genetics, doi:10.1093/hmg/ddl098

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Published by Oxford University Press 2006
Received February 27, 2006
Revised April 3, 2006
Accepted April 3, 2006

Article

Mitochondrial localization of telomerase as a determinant for hydrogen peroxide-induced mitochondrial DNA damage and apoptosis

Janine Hertzog Santos ¹ ^*, Joel N. Meyer ², and Bennett Van Houten ²

¹ Laboratory of Molecular Genetics, National Institute of Environmental and Health Sciences (NIEHS), National Institutes of Health (NIH). 111 Alexander Drive, MD D3-01, Research Triangle Park, NC, 27709; Currently at the Department of Pharmacology and Physiology, New Jersey Medical School of UMDNJ, Medical Sciences Building, H653, 185 South Orange Avenue, Newark, NJ, 07103, USA
² Laboratory of Molecular Genetics, National Institute of Environmental and Health Sciences (NIEHS), National Institutes of Health (NIH). 111 Alexander Drive, MD D3-01, Research Triangle Park, NC, 27709

^* To whom correspondence should be addressed.
Janine Hertzog Santos, E-mail: santosja{at}umdnj.edu

Abstract

We have previously shown that the protein subunit of telomerase,hTERT, has a bona fide N-terminal mitochondrial targeting sequence,and that ectopic hTERT expression in human cells correlatedwith increase mtDNA after hydrogen peroxide treatment. In thisstudy we show, using a loxP hTERT construct, that this increasein mtDNA damage following hydrogen peroxide exposure is dependentupon the presence of hTERT itself. Further experiments usinga dominant negative hTERT mutant show that telomerase must becatalytically active to mediate the increase in mtDNA damage.Etoposide, but not methylmethanesulfate, also promotes mtDNAlesions in cells expressing active hTERT, indicating genotoxicspecificity in this response. Fibroblasts expressing hTERT notonly show a $~$ 2-fold increase in mtDNA damage after oxidativestress but also suffer a 10-30-fold increase in apoptotic celldeath as assayed by Annexin V staining, caspase 3 activation,and PARP cleavage. Mutations to the N-terminal mitochondrialleader sequence cause a complete loss of mitochondrial targetingwithout affecting catalytic activity. Cells carrying this mutatedhTERT not only have significantly reduced levels of mtDNA damagefollowing hydrogen peroxide treatment, but strikingly also donot shown any loss of viability or cell growth. Thus, localizationof hTERT to the mitochondria renders cells more susceptibleto oxidative stress-induced mtDNA damage and subsequent celldeath, whereas nuclear-targeted hTERT, in the absence of mitochondriallocalization, is associated with diminished mtDNA damage, increasedcell survival and protection against cellular senescence.

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