Gerard P Zambetti
Dr. Gerard Zambetti began working on p53 as a Damon-Runyon Postdoctoral Fellow in the laboratory of Arnie Levine at Princeton University in 1990. During his fellowship he developed the first mammalian promoter-reporter assay to monitor p53 transcriptional activity. A close colleague in the lab, Jamil Momand, identified Mdm2 as a 90 kD protein that binds wild-type p53. At the same time Donna George at Penn reported that Mdm2 promotes tumor growth. They rationalized that Mdm2 could be...See more
Dr. Gerard Zambetti began working on p53 as a Damon-Runyon Postdoctoral Fellow in the laboratory of Arnie Levine at Princeton University in 1990. During his fellowship he developed the first mammalian promoter-reporter assay to monitor p53 transcriptional activity. A close colleague in the lab, Jamil Momand, identified Mdm2 as a 90 kD protein that binds wild-type p53. At the same time Donna George at Penn reported that Mdm2 promotes tumor growth. They rationalized that Mdm2 could be oncogenic by binding and inactivating p53. This hypothesis was borne out by Dr. Zambetti's demonstration that Mdm2 blocks the ability of p53 to transactivate a wild-type p53 responsive promoter-reporter. These findings established Mdm2 as a negative regulator of p53 and gave rise to the p53-Mdm2 field. Subsequent studies showed that Mdm2 inactivates p53 in human tumors. There is now a biannual international Mdm2 meeting and nearly 2000 published studies regarding Mdm2. Dr. Zambetti is presently an Associate Member at St. Jude Children's Research Hospital in Memphis, Tennessee. He has recently been involved in the identification and characterization of a novel germline p53 mutation that selectively predisposes carriers to pediatric adrenal cancer. His lab has also identified cytokine signaling pathways that repress the apoptotic function of p53. These findings could be exploited for the development of strategies to reduce the toxic side effects of radiation and chemotherapy. Dr. Zambetti also studies how p53 becomes activated during cell stress and how it kills tumor cells and his interests continue along these exciting, clinically important lines of research. See less
Gerard P Zambetti's Featured Books