27113

BBC3

JFY-1|JFY1|PUMA;BCL2 binding component 3;BBC3;BCL2 binding component 3

bcl-2-binding component 3|p53 up-regulated modulator of apoptosis

19q13.3-q13.4

protein-coding

genetic alterations of p53, which monitors DNA damage and operates cellular checkpoints, is a major factor in the development of many types of cancer in human. PUMA, a direct mediator of p53-associated apoptosis, was recently identified. The PUMA gene was mapped to chromosomal arm 19q, a region frequently deleted in head/neck and lung cancers. We analyzed 30 primary tumors (15 head/neck and 15 lung) for loss of heterozygosity (LOH) at 19q using seven widely spaced microsatellite markers. LOH in at least one marker was present in 8 (56%) of the head/neck and 4 (26.6%) of the lung cancer samples. Overall, D19S408 and D19S412, showed the highest rates of allelic loss (23.3 and 16.6%, respectively). We then sequenced the entire coding region of the PUMA gene in all the 30 primary tumors and in 10 head/neck cancer cell lines. No mutations of PUMA were detected in any samples examined, regardless of the mutational status of the p53 gene. Forced expression of wild-type PUMA in JHU-012 and JHU-013 head/neck cancer cell lines significantly inhibited colony formation. Although PUMA suppresses tumor cell growth in head/neck cancer, it does not appear to be a direct target of inactivation in head and neck tumorigenesis.

The tumor suppressor p53 can induce apoptosis by activating gene expression in the nucleus, or by directly permeabilizing mitochondria in the cytoplasm. It has been shown that PUMA, a downstream target of p53 and a BH3-only Bcl-2 family member, plays an essential role in apoptosis induced by both nuclear and cytoplasmic p53. To understand how PUMA does so, we used homologous recombination to delete the binding sites of p53 in the promoter of PUMA in human colorectal cancer cells. As a result, the induction of PUMA and apoptosis in response to p53 and DNA-damaging agents were abrogated. Transcription coactivator recruitment and histone modifications in the PUMA promoter were suppressed. However, induction of PUMA and apoptosis in response to non-DNA-damaging stimuli were unaffected. These results indicate that the binding of nuclear p53 to the specific sites within the PUMA promoter is essential for its ability to induce apoptosis and is likely to be required for its tumor suppressive capacity.