TY - JOUR
T1 - Physical and functional antagonism between tumor suppressor protein p53 and fortilin, an anti-apoptotic protein
AU - Chen, Yanjie
AU - Fujita, Takayuki
AU - Zhang, Di
AU - Doan, Hung
AU - Pinkaew, Decha
AU - Liu, Zhihe
AU - Wu, Jiaxin
AU - Koide, Yuichi
AU - Chiu, Andrew
AU - Lin, Curtis Chen Jen
AU - Chang, Jui Yoa
AU - Ruan, Ke He
AU - Fujise, Ken
PY - 2011/9/16
Y1 - 2011/9/16
N2 - Tumor suppressor protein p53, our most critical defense against tumorigenesis, can be made powerless by mechanisms such as mutations and inhibitors. Fortilin, a 172-amino acid polypeptide with potent anti-apoptotic activity, is up-regulated in many human malignancies. However, the exact mechanism by which fortilin exerts its anti-apoptotic activity remains unknown. Here we present significant insight. Fortilin binds specifically to the sequence-specific DNA binding domain of p53. The interaction of fortilin with p53 blocks p53-induced transcriptional activation of Bax. In addition, fortilin, but not a double point mutant of fortilin lacking p53 binding, inhibits p53-dependent apoptosis. Furthermore, cells with wild-type p53 and fortilin, but not cells with wild-type p53 and the double point mutant of fortilin lacking p53 binding, fail to induce Bax gene and apoptosis, leading to the formation of large tumor in athymic mice. Our results suggest that fortilin is a novel p53-interacting molecule and p53 inhibitor and that it is a logical molecular target in cancer therapy.
AB - Tumor suppressor protein p53, our most critical defense against tumorigenesis, can be made powerless by mechanisms such as mutations and inhibitors. Fortilin, a 172-amino acid polypeptide with potent anti-apoptotic activity, is up-regulated in many human malignancies. However, the exact mechanism by which fortilin exerts its anti-apoptotic activity remains unknown. Here we present significant insight. Fortilin binds specifically to the sequence-specific DNA binding domain of p53. The interaction of fortilin with p53 blocks p53-induced transcriptional activation of Bax. In addition, fortilin, but not a double point mutant of fortilin lacking p53 binding, inhibits p53-dependent apoptosis. Furthermore, cells with wild-type p53 and fortilin, but not cells with wild-type p53 and the double point mutant of fortilin lacking p53 binding, fail to induce Bax gene and apoptosis, leading to the formation of large tumor in athymic mice. Our results suggest that fortilin is a novel p53-interacting molecule and p53 inhibitor and that it is a logical molecular target in cancer therapy.
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U2 - 10.1074/jbc.M110.217836
DO - 10.1074/jbc.M110.217836
M3 - Article
C2 - 21795694
AN - SCOPUS:80052740794
SN - 0021-9258
VL - 286
SP - 32575
EP - 32585
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 37
ER -