Evolution and population genetics of the H-ras minisatellite and cancer predisposition

doi:10.1093/hmg/ddg105

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Human Molecular Genetics, 2003, Vol. 12, No. 8 891-900
DOI: 10.1093/hmg/ddg105
© 2003 Oxford University Press

Evolution and population genetics of the H-ras minisatellite and cancer predisposition

Jacqueline A. Langdon and John A.L. Armour^*

Institute of Genetics, University of Nottingham, Queen's Medical Centre, Nottingham NG7 2UH, UK

Received January 6, 2003; Accepted February 19, 2003

Case–control studies have implicated rare length H-rasminisatellite alleles in cancer risk. In Europeans, this locushas four common alleles, and a larger number of rare alleles;possession of a rare allele has been identified as a risk factorresponsible for 5–10% of some cancers. This unusual modelof predisposition has been controversial in case–controlstudies, but also makes characteristic predictions about thepopulation genetics of the locus, which we examine in this study.Using minisatellite variant repeat (‘MVR’) mapping,and compound haplotypes composed of the minisatellite and surroundingsubstitutional polymorphisms, we have reconstructed the mainsteps in the evolution of this locus in human populations. MVR-calibratedmeasurements of allele length yield rare allele frequenciessignificantly higher than most previous studies, and show thatmost other analyses have not distinguished two common allelesof 84 and 85 repeat units. Alleles classified as ‘rare’in European populations predominate (70%) in the African samplestudied. Small-pool PCR (SP–PCR) analysis on common allelesin sperm DNA gives an estimate for the germline minisatellitemutation rate of about 0.05% (95% confidence upper limit 0.15%).Overall, our results do not reflect a locus subject to frequentmutation and strong selection, and are difficult to reconcilewith the proposed cancer predisposition. Restricted variationat this locus is most simply explained by low mutation rate,and although definitive case–control studies can onlybe performed using methods capable of reproducibly distinguishingrare and common alleles, our work suggests that most studiesto date have not resolved alleles adequately.

^* To whom correspondence should be addressed. Tel: +44 1159249924;Fax: +44 1159709906; Email: john.armour{at}nottingham.ac.uk

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