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The Mdm2 proto-oncogene is amplified to high copy numbers in human sarcomas and is overexpressed in a wide variety of other human cancers. Because Mdm2 protein forms a complex with the p53 tumor suppressor protein and down-regulates p53 function, the oncogenic potential of Mdm2 is presumed to be p53-dependent. To model these conditions in mice, we have used the entire Mdm2 gene, under transcriptional control of its native promoter region, as a transgene to create mice that overexpress Mdm2. The transgenic mice are predisposed to spontaneous tumor formation, and the incidence of sarcomas observed in the Mdm2-transgenic mice in the presence or absence of functional p53 demonstrates that, in addition to Mdm2-mediated inactivation of p53, there exists a p53-independent role for Mdm2 in tumorigenesis.The MDM2 proto-oncogene is amplified and overexpressed in a variety of human cancers. Approximately one-third of osteosarcomas show amplification and overexpression of MDM2, and MDM2 has been found to be overexpressed in numerous soft tissue sarcomas, including malignant fibrous histiocytomas, rhabdomyosarcomas, liposarcomas, and leiomyosarcomas (1-5). Amplification and overexpression of MDM2 also is observed in approximately 10% of glioblastomas and astrocytomas (6), and MDM2 overexpression has been documented in 53% of myeloid (7), 28% of B-cell lymphomas (8), and 40% of oral squamous cell carcinomas (9).

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Hepatitis B virus X protein and p53 tumor suppressor interactions in the modulation of apoptosis

Elmore

Hancock

Chang

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

303

213

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We have reported previously that the hepatitis B virus oncoprotein, HBx, can bind to the C terminus of p53 and inhibit several critical p53-mediated cellular processes, including DNA sequence-specific binding, transcriptional transactivation, and apoptosis. Recognizing the importance of p53-mediated apoptosis for maintaining homeostasis and preventing neoplastic transformation, here we further examine the physical interaction between HBx and p53 as well as the functional consequences of this association. In vitro binding studies indicate that the ayw and adr viral subtypes of HBx bind similar amounts of glutathione S-transferase-p53 with the distal C terminus of HBx (from residues 111 to 154) being critical for this interaction. Using a microinjection technique, we show that this same C-terminal region of HBx is necessary for sequestering p53 in the cytoplasm and abrogating p53-mediated apoptosis. The transcriptional transactivation domain of HBx also maps to its C terminus; however, a comparison of the ability of full-length and truncated HBx protein to abrogate p53-induced apoptosis versus transactivate simian virus 40-or human nitric oxide synthase-2 promoter-driven reporter constructs indicates that these two functional properties are distinct and thus may contribute to hepatocarcinogenesis differently. Collectively, our data indicate that the distal C-terminal domain of HBx, independent of its transactivation activity, complexes with p53 in the cytoplasm, partially preventing its nuclear entry and ability to induce apoptosis. These pathobiological effects of HBx may contribute to the early stages of hepatocellular carcinogenesis.

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Amy R. Hancock

Overexpression of Mdm2 in mice reveals a p53-independent role for Mdm2 in tumorigenesis

Hepatitis B virus X protein and p53 tumor suppressor interactions in the modulation of apoptosis

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