MULTIPLE TYPES OF ABERRATIONS IN THE P16(INK4A) AND THE P15(INK4B) GENES IN 30 ESOPHAGEAL SQUAMOUS-CELL-CARCINOMA CELL-LINES

To determine the role and mode of inactivation of the p16 and p16 gene s in human esophageal tumors, we examined alterations and expression o f the alpha and beta forms of the p16 gene, 5' CpG island methylation of p16 exon 1 alpha, and alterations of the p15 gene in 30 esophageal squamous-cell-carcinoma cell lines. Of 30 such cell lines examined, 28 (93%) showed aberrations of the a form of the p16 gene: 18 homozygous deletions, 6 point mutations and 4 hypermethylation. Methylation was exclusively observed in cell lines with the wild-type a form. Of the 6 point mutations, one was observed in exon 1 alpha, one in the splice acceptor site of intron 1 and the remaining 4 were in exon 2. In the b eta form, 18 homozygous deletions and 3 point mutations in exon 2 were detected, but no point mutation was found in exon 1 beta. All mutatio ns in exon 2 gave rise to premature termination codons in the reading frame of the or transcript, while no non-sense mutations were observed in the reading frame of the beta transcript. Among 12 cell lines with out homozygous deletions of the alpha and beta forms of the p16 gene, the expected wild-type beta transcript was observed in 8 cell lines, w hereas only one cell line expressed the expected wild-type a transcrip t. Homozygous deletions of the p15 gene were observed in 16 cell lines (53%), and no point mutations were detected. Twelve cell lines had al terations only in the a form of the pi 6 gene, while none showed aberr ations exclusively in the p15 gene. Taken together, these results indi cate that inactivation of the beta form of the p16 gene and the p15 ge ne are not so frequent as that of the a form of the p16 gene in ESC ce ll lines, suggesting that aberration of the a form of p16 gene is the primary target of 9p loss in ESC. (C) 1997 Wiley-Liss, Inc.