Activation of the ALT pathway for telomere maintenance can affect other sequences in the human genome

doi:10.1093/hmg/ddi185

Human Molecular Genetics Advance Access originally published online on May 11, 2005
Human Molecular Genetics 2005 14(13):1785-1794; doi:10.1093/hmg/ddi185

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Activation of the ALT pathway for telomere maintenance can affect other sequences in the human genome

Jennie N. Jeyapalan¹, Helen Varley¹, Jenny L. Foxon¹, Raphael E. Pollock², Alec J. Jeffreys¹, Jeremy D. Henson³, Roger R. Reddel³ and Nicola J. Royle¹^,*

¹Department of Genetics, University of Leicester, Leicester, LE1 7RH, UK, ²MD Anderson Cancer Centre, Houston, Texas, TX 77030 USA and ³Cancer Research Unit, Children's Medical Research Institute, Sydney, NSW 2145, Australia

^* To whom correspondence should be addressed. Tel: +44 162522270; Fax: +44 162523378; Email: njr{at}leicester.ac.uk

Received February 22, 2005; Revised April 13, 2005; Accepted May 4, 2005

Immortal human cells maintain telomere length by the expressionof telomerase or through the alternative lengthening of telomeres(ALT). The ALT mechanism involves a recombination-like processthat allows the rapid elongation of shortened telomeres. However,it is not known whether activation of the ALT pathway affectsother sequences in the genome. To address this we have investigated,in ALT-expressing cell lines and tumours, the stability of tandemrepeat sequences known to mutate via homologous recombinationin the human germline. We have shown extraordinary somatic instabilityin the human minisatellite MS32 (D1S8) in ALT-expressing (ALT+)but not in normal or telomerase-expressing cell lines. The MS32mutation frequency varied across 15 ALT+ cell lines and wason average 55-fold greater than in ALT– cell lines. TheMS32 minisatellite was also highly unstable in three of eightALT+ soft tissue sarcomas, indicating that somatic destabilizationoccurs in vivo. The MS32 mutation rates estimated for two ALT+cell lines were similar to that seen in the germline. However,the internal structures of ALT and germline mutant alleles arevery different, indicating differences in the underlying mutationmechanisms. Five other hypervariable minisatellites did notshow elevated instability in ALT-expressing cell lines, indicatingthat minisatellite destabilization is not universal. The elevationof MS32 instability upon activation of the ALT pathway and telomerelength maintenance suggests there is overlap between the underlyingprocesses that may be tractable through analysis of the D1S8locus.

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