Telomere maintenance by telomerase and by recombination can coexist in human cells

doi:10.1093/hmg/10.18.1945

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Human Molecular Genetics, 2001, Vol. 10, No. 18 1945-1952
© 2001 Oxford University Press

Telomere maintenance by telomerase and by recombination can coexist in human cells

Maria Antonietta Cerone, J. Arturo Londono-Vallejo¹ and Silvia Bacchetti⁺

Department of Pathology and Molecular Medicine, McMaster University HSC-4H30, 1200 Main Street West, Hamilton, ON L8N 3Z5, Canada and ¹Unité INSERM 434, 27 rue Juliette Dodu, Paris 75010, France

Immortal human cells maintain their telomeres by two independentmechanisms, a prevalent one dependent on de novo synthesis oftelomeric DNA by telomerase, and a rarer one based on telomererecombination [alternative lengthening of telomeres (ALT)].Studies with yeast have indicated that expression of telomeraseinhibits telomere recombination. In the present study, we haveinvestigated whether expression of telomerase in cells thatuse ALT would similarly reveal dominance of telomere elongationby telomerase over telomere recombination. Telomerase-negativeWI38 VA13/2RA ALT cells were reconstituted for telomerase activitythrough ectopic expression of the enzyme subunits, hTERT andhTR, and the presence and function of telomerase and ALT weremonitored during long term cell growth by enzymatic assays,detection of the ALT-associated PML bodies (APBs) and analysisof telomere dynamics. Our results indicate that telomerase activityand APBs persisted in the cells over at least 90 populationdoublings. The activity of both pathways on telomeres was determinedby analysis of telomere length versus time by gel electrophoresisand in situ hybridization. ALT cells are characterized by veryheterogeneous telomeres with a much longer average size thanthe telomeres of telomerase-positive cells. Telomere dynamicsin our cells were compatible with both ALT and telomerase beingbiologically active since the long telomeres typical of ALTwere maintained, while short telomeres, thought to be the preferentialsubstrate of telomerase, were elongated. These findings, indicatingthat human cells may be capable of concomitantly utilizing bothmechanisms of telomere maintenance without effects on theirgrowth and viability, have implications for cancer therapy.

⁺ To whom correspondence should be addressed. Tel: +1 905 5259140; Fax: +1 905 546 9940; Email: bacchett@mcmaster.ca

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