Chemosensitivity is controlled by p63 modification with ubiquitin-like protein ISG 15
Identification of the cellular mechanisms that mediate cancer cell chemosensitivity is important for developing new cancer treatment strategies. Several chemotherapeutic drugs increase levels of the posttranslational modifier ISG15, which suggests that ISGylation could suppress oncogenesis. However,...
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| Veröffentlicht in: | The Journal of clinical investigation 2012-07, Vol.122 (7), p.2622 |
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| creator | Jeon, Young Joo Jo, Mi Gyeong Yoo, Hee Min Hong, Se-Hoon Park, Jung-Mi Ka, Seung Hyeun Oh, Kyu Hee Seol, Jae Hong Jung, Yong Keun Chung, Chin Ha |
| description | Identification of the cellular mechanisms that mediate cancer cell chemosensitivity is important for developing new cancer treatment strategies. Several chemotherapeutic drugs increase levels of the posttranslational modifier ISG15, which suggests that ISGylation could suppress oncogenesis. However, how ISGylation of specific target proteins controls tumorigenesis is unknown. Here, we identified proteins that are ISGylated in response to chemotherapy. Treatment of a human mammary epithelial cell line with doxorubicin resulted in ISGylation of the p53 family protein p63. An alternative splice variant of p63, ΔN63α, suppressed the transactivity of other p53 family members, and its expression was abnormally elevated in various human epithelial tumors, suggestive of an oncogenic role for this variant. We showed that ISGylation played an essential role in the downregulation of ΔN63α. Anticancer drugs, including doxorubicin, induced ΔN63α ISGylation and caspase-2 activation, leading to cleavage of ISGylated ΔN63α in the nucleus and subsequent release of its inhibitory domain to the cytoplasm. ISGylation ablated the ability of ΔN63α to promote anchorageindependent cell growth and tumor formation in vivo as well to suppress the transactivities of proapoptotic p53 family members. These findings establish ISG15 as a tumor suppressor via its conjugation to ΔN63α and provide a molecular rationale for therapeutic use of doxorubicin against ΔNp63α-mediated cancers. [PUBLICATION ABSTRACT] |
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Several chemotherapeutic drugs increase levels of the posttranslational modifier ISG15, which suggests that ISGylation could suppress oncogenesis. However, how ISGylation of specific target proteins controls tumorigenesis is unknown. Here, we identified proteins that are ISGylated in response to chemotherapy. Treatment of a human mammary epithelial cell line with doxorubicin resulted in ISGylation of the p53 family protein p63. An alternative splice variant of p63, ΔN63α, suppressed the transactivity of other p53 family members, and its expression was abnormally elevated in various human epithelial tumors, suggestive of an oncogenic role for this variant. We showed that ISGylation played an essential role in the downregulation of ΔN63α. Anticancer drugs, including doxorubicin, induced ΔN63α ISGylation and caspase-2 activation, leading to cleavage of ISGylated ΔN63α in the nucleus and subsequent release of its inhibitory domain to the cytoplasm. ISGylation ablated the ability of ΔN63α to promote anchorageindependent cell growth and tumor formation in vivo as well to suppress the transactivities of proapoptotic p53 family members. These findings establish ISG15 as a tumor suppressor via its conjugation to ΔN63α and provide a molecular rationale for therapeutic use of doxorubicin against ΔNp63α-mediated cancers. 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ISGylation ablated the ability of ΔN63α to promote anchorageindependent cell growth and tumor formation in vivo as well to suppress the transactivities of proapoptotic p53 family members. These findings establish ISG15 as a tumor suppressor via its conjugation to ΔN63α and provide a molecular rationale for therapeutic use of doxorubicin against ΔNp63α-mediated cancers. 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ISGylation ablated the ability of ΔN63α to promote anchorageindependent cell growth and tumor formation in vivo as well to suppress the transactivities of proapoptotic p53 family members. These findings establish ISG15 as a tumor suppressor via its conjugation to ΔN63α and provide a molecular rationale for therapeutic use of doxorubicin against ΔNp63α-mediated cancers. [PUBLICATION ABSTRACT]</abstract><cop>Ann Arbor</cop><pub>American Society for Clinical Investigation</pub></addata></record> |
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| subjects | Apoptosis Biomedical research Cancer therapies Cell adhesion & migration Cell cycle Cell growth Cytoplasm Drugs Enzymes Genes Kinases Lung cancer Proteins Senescence Tumorigenesis Tumors |
| title | Chemosensitivity is controlled by p63 modification with ubiquitin-like protein ISG 15 |
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