Induction of p16/INK4a gene expression and cellular senescence by toyocamycin.

We constructed an assay system of a luciferase reporter with p16/lNK4a gene transcriptional regulatory domain to identify p16-inducing substances, and found toyocamycin to induce gene expression from the screening of culture fluids of Streptomyces. Toyocamycin is a nucleoside analog, and it increased the p16 mRNA level in human normal fibroblasts or synovial cells as assessed by Northern blot hybridization or real time RT-PCR. It also induced cellular senescence in normal human fibroblasts. The transcriptional regulatory regions of human p16 gene that were responsible for the induction were analyzed using deletion mutants of the transcriptional regulatory region of p16 linked to the luciferase gene. The DNA fragment -111 to +1 bp from the cap site was sufficient to drive toyocamycin-activated transcription of p16/luciferase reporter. Nucleotide sequences within this domain contained the Sp1- and Ets-binding sequences. Mutations were introduced into these sequences, and the Sp1 sequence was found to be critical for the induction, and this notion was confirmed from gel-mobility shift assay.

Induction of p16INK4a transcription and of cellular senescence by aclacinomycin-derivatives and cardiac glycosides.

Stable transformants of Saos-2 cells that contain the luciferase reporter gene under the control of the human p16INK4a transcriptional regulatory region were established, and were used to identify growth-inhibiting substances from culture broths of actinomycetes and extracts of plants. Among the active substances so far identified were an aclacinomycin-derivative, cenerubin B, and a cardiac glycoside, periplocin. These substances inhibited growth of normal human fibroblasts, and induced senescent phenotypes including a flattened morphology and increased acidic beta-galactosidase activity, although the activities of their derivatives to induce p16CDKN2 and beta-galactosidase did not coincided with each other. These results suggest that the reporter system using the p16CDKN2 transcriptional regulatory region is a useful means for screening growth inhibiting substances that are potential anti-tumor agents.