Pathogenetic and biologic significance of TP14ARF alterations in nonsmall cell lung carcinoma.

The INK4a/ARF locus on human chromosome band 9p21 carries two tumor suppressor genes, TP14ARF and TP16INK4a, and both are frequently inactivated in nonsmall cell lung carcinoma (NSCLC. TP14ARF and TP16INK4a play important roles in the TP53 and RB tumor suppressor pathways, respectively. To elucidate the genetic and epigenetic status of the TP14ARF and TP16INK4a genes in NSCLC, we comprehensively analyzed mutations, homozygous deletions, methylations in the CpG regions, and expression of the TP14ARF and TP16INK4a genes in 31 NSCLC cell lines. TP16INK4a (84%) was inactivated more frequently than TP14ARF (55%). Moreover, p16INK4a was inactivated in all 17 cell lines with TP14ARF inactivation. Three cell lines with base substitutions in exon 2 resulted in missense mutations of TP16INK4a but silent mutations of TP14ARF. There was a case of mutation in exon 1alpha unique to TP16INK4a, but not a mutation in exon 1beta unique to TP14ARF. The TP16INK4a gene was methylated in 6 cell lines, but the TP14ARF gene was not methylated in any cell line. Unlike a mutually exclusive relationship for inactivation between TP16INK4a and RB, TP14ARF and TP53 did not show such a relationship (P = 0.61, Fisher exact test). Thus, the present results indicate the TP16INK4a gene to be the primary target of INK4a/ARF locus alterations. Transient TP14ARF expression induced G1 arrest in the cells with wild-type TP53, but not in the cells with mutated TP53. Thus, the pathogenetic and biologic significance of TP14ARF inactivation is different between NSCLC cells with wild-type TP53 and those with mutated TP53.