We have analyzed the ability of an adenoviral vector encoding the exon 1b region of the p14 ARF tumor suppressor ( ARF ) to suppress the growth and viability of an array of tumor cell lines of various origins and varying p53 and Rb status, in order to establish the clinical potential of ARF. An important activity of ARF is regulation of p53 stability and function through binding to the mdm2 protein. By sequestering mdm2, ARF may promote growth suppression through the Rb pathway as well because mdm2 can bind to Rb and attenuate its function. Whereas the high frequency of ARF gene deletion in human cancers, accounting for some 40% of cancers overall, suggests that ARF would be a strong candidate for therapeutic application, the possible dependence of ARF activity on p53 and Rb function presents a potential limitation to its application, as these functions are often impaired in cancer. We show here that a replication -defective adenovirus, Ad1b, encoding the exon 1b region of ARF is most effective in tumor cells expressing endogenous wild -type p53. Nevertheless, Ad1b suppresses tumor cell growth and viability in vitro and in vivo, inducing G1 or G2 cell cycle arrest and cell death even in tumor cells lacking both functional Rb and p53 pathways, and independently of induction of the p53 downstream targets, p21, bax, and mdm2. These results point to an activity of ARF in human tumor cells that is independent of Rb or p53, and suggest that therapeutic applications based on ARF would have a broad clinical application in cancer.
The cyclin kinase inhibitor p21 WAF1/Cip1 is upregulated by the tumor suppressor p53. While p21 is central for the G-1 arrest mediated by p53, it is still unclear if p21 also functions as a downstream eector of p53 dependent apoptosis. Apoptosis induced by DNA damage but not dexamethasone is p53 dependent in thymocytes. To investigate the physiological role of p21 in apoptosis, we have generated transgenic mice in which the p21 transgene is targeted for restricted expression in the T cell lineage. Thymocytes from p21 transgenic mice were hypersensitive to cell death induced by DNA damaging agents such as ionizing radiation and UV, but not be dexamethasone. Irradiated p21 transgenic thymocytes had approximately twofold more apoptotic cells as compared to irradiated age matched littermate control mice. Radiation induced death is comparable in thymocytes from p21+Bcl2+double transgenic mice and age matched littermate controls, indicating that the Bcl2 transgene rescues the radiation hypersensitivity imposed by p21. However, thymocytes from p537/7 mice even when they expressed the p21 transgene, were resistant to death induced by radiation. Together these results show that thymocytes from p21 transgenic mice are hypersensitive to radiation induced programmed cell death and suggest that the radiation hypersensitivity of p21 transgenic thymocytes involves p53 dependent pathway and signals in addition to p21.
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