Ectopic mTERT expression in mouse embryonic stem cells does not affect differentiation but confers resistance to differentiation- and stress-induced p53-dependent apoptosis

doi:10.1242/jcs.01673

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JCS ePress online publication date 1 Feb 2005
doi: 10.1242/jcs.01673

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Research Article

Ectopic mTERT expression in mouse embryonic stem cells does not affect differentiation but confers resistance to differentiation- and stress-induced p53-dependent apoptosis

Ming Kei Lee, M. Prakash Hande, and Kanaga Sabapathy^*
^* Author for correspondence (e-mail: cmrksb{at}nccs.com.sg)

The fundamental role of telomerase is to protect telomere endsand to maintain telomere length during replication; hence, telomeraseexpression is high in stem cells but reduced upon differentiation.Recent studies indicate that telomerase might play other rolesbesides telomere maintenance. We have investigated the roleof telomerase in cellular differentiation and death. Here, weshow that ectopic expression of mouse telomerase catalytic subunit(mTERT) does not affect embryonic stem (ES) cell proliferationor differentiation in vitro, but protects ES cells against celldeath during differentiation. Ectopic mTERT expression alsoconfers resistance to apoptosis induced by oxidative stressand other genotoxic insults. This resistance depends on thecatalytic activity of mTERT. Stress-signal-induced p53 accumulationand consequent p53-dependent apoptotic target gene expressionwas not affected by mTERT overexpression. However, althoughchemical inhibition of p53 by ${alpha}$ -pifithrin reduced stress-inducedapoptosis in vector-expressing cells, it did not significantlyaffect apoptosis in mTERT-expressing cells. Moreover, overexpressionof mTERT in p53^-/- ES cells did not confer further resistanceto genotoxic insults, suggesting that mTERT might exert itsprotective effect by antagonizing the p53 pathway. Altogether,our findings indicate that ectopic mTERT expression in ES cellsdoes not affect differentiation but confers resistance to apoptosis,and suggest that this strategy might be used in improving theefficiency of stem-cell therapies.

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