The present investigation demonstrates that CDKN2A germline gene mutations were observed in 7.8% of the 64 Swedish melanoma kindreds that each included at least two first-degree relatives with melanoma and dysplastic nevus syndrome. No CDKN2A exon 1beta or CDKN2B mutations were identified. The critical genes responsible for the inheritance of a susceptibility to develop melanoma among family members in this population have yet to be identified.
A Platz', U Ringborg', B LagerlOf, E Lundqvist3, P Sevigny3 and M Inganas3Departments of 'Oncology and 2Pathology, Radiumhemmet, Karolinska Hospital, S-1 71 76 Stockholm; 3Pharmacia Biotech, S-751 82 Uppsala, Sweden.Summary We analysed 26 metastases from 25 patients with sporadic cutaneous malignant melanoma for alterations in the CDKN2 gene by a combined polymerase chain reaction/single-strand conformation polymorphism (PCR/SSCP)/nucleotide sequencing approach. Eleven alterations (one in exon 1, five in exon 2 and five in the 3' non-coding sequence of the exon 3 region) were concordantly and independently detected by both SSCP and nucleotide sequence analysis. Two of the exon 2 changes and the five changes in the non-coding exon 3 region are likely to represent natural polymorphism. Four (15%) of 26 metastases thus had CDKN2 mutations and belonged to 3 (12%) of 25 patients. Semi-quantitative PCR furthermore revealed no sign of homozygous deletions of the CDKN2 exon 2 region. The results support an involvement of the CDKN2 product in the development of a subgroup of sporadic melanomas and encourage the search for alterations in additional genes of the 9p21 region.
Summary A common characteristic of cancer cells is unrestrained cell division. This may be caused by mutational changes in genes coding for components of cell cycle-controlling networks. Alterations in genes involved in G, checkpoint control have been registered in many human tumours, and investigations from several laboratories show that such alterations, taken together, are the most frequent changes detected in cancer cells. The present paper describes mutational analysis by polymerase chain reaction-single-strand conformation polymorphism (PCR/SSCP) and nucleotide sequence analysis of the genes coding for the p15, p53 and N-ras proteins in 26 metastases from 25 melanoma patients. The registered mutation frequencies add together with previously registered mutations in p16 in the same patient samples to a substantial total frequency of 44% of patients with mutation in at least one of the investigated genes. These results show the occurrence of heterogeneous defects among components of the cell cycle controlling machinery in a human melanoma tumour sample collection and demonstrate that the total frequency of detected alterations increases with the number of cell cycle controlling genes included in the screening panel.
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