SOX2 promotes lineage plasticity and antiandrogen resistance in TP53-and RB1-deficient prostate cancer

Mu Ping; Zhang Zeda; Benelli Matteo; Karthaus Wouter R.; Hoover Elizabeth; Chen Chi-Chao; Wongvipat John; Ku Sheng-Yu; Gao Dong; Cao Zhen; Shah Neel; Adams Elizabeth J.; Abida Wassim; Watson Philip A.; Prandi Davide; Huang Chun-Hao; de Stanchina Elisa; Lowe Scott W.; Ellis Leigh; Beltran Himisha; Rubin Mark A.; Goodrich David W.; Demichelis Francesca; Sawyers Charles L.

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SOX2 promotes lineage plasticity and antiandrogen resistance in TP53-and RB1-deficient prostate cancer

机译：SOX2促进TP53和RB1缺陷型前列腺癌的谱系可塑性和抗雄激素抵抗性

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Some cancers evade targeted therapies through a mechanism known as lineage plasticity, whereby tumor cells acquire phenotypic characteristics of a cell lineage whose survival no longer depends on the drug target. We use in vitro and in vivo human prostate cancer models to show that these tumors can develop resistance to the antiandrogen drug enzalutamide by a phenotypic shift from androgen receptor (AR)-dependent luminal epithelial cells to AR-independent basal-like cells. This lineage plasticity is enabled by the loss of TP53 and RB1 function, is mediated by increased expression of the reprogramming transcription factor SOX2, and can be reversed by restoring TP53 and RB1 function or by inhibiting SOX2 expression. Thus, mutations in tumor suppressor genes can create a state of increased cellular plasticity that, when challenged with antiandrogen therapy, promotes resistance through lineage switching.

机译：一些癌症通过称为谱系可塑性的机制逃避了靶向疗法，从而肿瘤细胞获得了细胞谱系的表型特征，其存活不再取决于药物靶标。我们使用体外和体内人类前列腺癌模型来显示这些肿瘤可以通过从雄激素受体（AR）依赖的腔上皮细胞向AR独立的基底样细胞的表型转变发展出对抗雄激素药物enzalutamide的抗性。此谱系可塑性通过TP53和RB1功能的丧失来实现，通过重编程转录因子SOX2的表达增加来介导，并且可以通过恢复TP53和RB1功能或通过抑制SOX2的表达而逆转。因此，肿瘤抑制基因中的突变可以产生细胞可塑性增强的状态，当受到抗雄激素治疗的挑战时，该状态可通过谱系转换促进耐药性。

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《Science》 |2017年第6320期|84-88|共5页
作者
Mu Ping; Zhang Zeda; Benelli Matteo; Karthaus Wouter R.; Hoover Elizabeth; Chen Chi-Chao; Wongvipat John; Ku Sheng-Yu; Gao Dong; Cao Zhen; Shah Neel; Adams Elizabeth J.; Abida Wassim; Watson Philip A.; Prandi Davide; Huang Chun-Hao; de Stanchina Elisa; Lowe Scott W.; Ellis Leigh; Beltran Himisha; Rubin Mark A.; Goodrich David W.; Demichelis Francesca; Sawyers Charles L.;
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作者单位

Mem Sloan Kettering Canc Ctr, Human Oncol & Pathol Program, 1275 York Ave, New York, NY 10065 USA;

Mem Sloan Kettering Canc Ctr, Human Oncol & Pathol Program, 1275 York Ave, New York, NY 10065 USA;

Mem Sloan Kettering Canc Ctr, Dept Mol Pharmacol, 1275 York Ave, New York, NY 10065 USA|Sandra & Edward Meyer Canc Ctr, Weill Cornell Med, York, NY 10021 USA;

Roswell Pk Canc Inst, Dept Pharmacol & Therapeut, New York, NY 14263 USA;

Cornell Univ, Weill Cornell Grad Sch Med Sci, New York, NY 10021 USA|Howard Hughes Med Inst, Chevy Chase, MD 20815 USA;

Sandra & Edward Meyer Canc Ctr, Weill Cornell Med, York, NY 10021 USA;

Univ Trento, Ctr Integrat Biol, Trento, Italy;

Mem Sloan Kettering Canc Ctr, Dept Mol Pharmacol, 1275 York Ave, New York, NY 10065 USA;

Mem Sloan Kettering Canc Ctr, Canc Biol & Genet Program, 1275 York Ave, New York, NY 10065 USA;

Cornell Univ, Weill Cornell Grad Sch Med Sci, New York, NY 10021 USA;

Univ Trento, Ctr Integrat Biol, Trento, Italy;

Mem Sloan Kettering Canc Ctr, Louis V Gerstner Jr Grad Sch Biomed Sci, New York, NY 10065 USA|Univ Trento, Ctr Integrat Biol, Trento, Italy|Mem Sloan Kettering Canc Ctr, Canc Biol & Genet Program, 1275 York Ave, New York, NY 10065 USA|Mem Sloan Kettering Canc Ctr, Dept Mol Pharmacol, 1275 York Ave, New York, NY 10065 USA;

Cornell Univ, Weill Cornell Grad Sch Med Sci, New York, NY 10021 USA|Roswell Pk Canc Inst, Dept Pharmacol & Therapeut, New York, NY 14263 USA;

Mem Sloan Kettering Canc Ctr, Louis V Gerstner Jr Grad Sch Biomed Sci, New York, NY 10065 USA|Cornell Univ, Weill Cornell Grad Sch Med Sci, New York, NY 10021 USA;

Mem Sloan Kettering Canc Ctr, Canc Biol & Genet Program, 1275 York Ave, New York, NY 10065 USA|Sandra & Edward Meyer Canc Ctr, Weill Cornell Med, York, NY 10021 USA;

Mem Sloan Kettering Canc Ctr, Human Oncol & Pathol Program, 1275 York Ave, New York, NY 10065 USA|Weill Cornell Med & New York Presbyterian Hosp, Englander Inst Precis Med, New York, NY 10065 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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入库时间 2022-08-18 02:51:14

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1. Re: SOX2 Promotes Lineage Plasticity and Antiandrogen Resistance in TP53-and RB1-Deficient Prostate Cancer [J] . Atala Anthony The Journal of Urology . 2018,第3期

机译：Re：Sox2促进TP53和RB1缺乏前列腺癌中的谱系可塑性和抗抗原性
2. Re: SOX2 Promotes Lineage Plasticity and Antiandrogen Resistance in TP53-and RB1-Deficient Prostate Cancer [J] . Atala Anthony The Journal of Urology . 2018,第3期

机译：Re：Sox2促进TP53和RB1缺乏前列腺癌中的谱系可塑性和抗抗原性
3. Re: SOX2 Promotes Lineage Plasticity and Antiandrogen Resistance in TP53-and RB1-Deficient Prostate Cancer Editorial Comment [J] . Atala Anthony The Journal of Urology . 2017,第2期

机译：Re：SOx2促进TP53和RB1缺乏前列腺癌中的谱系可塑性和抗抗原性抗性编辑评论
4. CD147 promote proliferation in prostate cancer cell [C] . Qing Fang, Fang Fang, Yulian Liu, International Conference on Frontiers of Advanced Materials and Engineering Technology . 2014

机译：CD147促进前列腺癌细胞的增殖
5. The Role of SOX2 in Regulating Metabolism and Enzalutamide Resistance in Prostate Cancer [D] . de Wet, Larischa . 2020

机译：SOX2在治疗前列腺癌中调节代谢和依齐甲酰胺抗性的作用
6. SOX2 promotes lineage plasticity and antiandrogen resistance in TP53- and RB1-deficient prostate cancer [O] . Ping Mu, Zeda Zhang, Matteo Benelli, -1

机译：SOX2促进TP53和RB1缺陷型前列腺癌的谱系可塑性和抗雄激素抵抗性
7. Rb1 and Trp53 cooperate to suppress prostate cancer lineage plasticity, metastasis, and antiandrogen resistance [O] . Sheng Yu Ku, Spencer Rosario, Yanqing Wang, 2017

机译：RB1和TRP53配合抑制前列腺癌谱系塑性，转移和抗抗原性
8. Autophagosomal Sequestration of Mitochondria as an Indicator of Antiandrogen Therapy Resistance of Prostate Cancer (PCa). [R] . Wilding, G. 2017

机译：线粒体的自噬体螯合作为前列腺癌（pCa）抗雄激素治疗抗性的指标。

SOX2 promotes lineage plasticity and antiandrogen resistance in TP53-and RB1-deficient prostate cancer

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