YAP Expression Confers Therapeutic Vulnerability to Cuproptosis in Breast Cancer Cells by Regulating Copper Homeostasis

癌症研究 转移 体内 细胞生物学 乳腺癌 生物 细胞毒性 化学 纳米载体 诱导剂 细胞生长 基因敲除 肿瘤进展 癌细胞 基因沉默 脆弱性(计算) 小RNA 信号转导 平衡 生长抑制 下调和上调 细胞凋亡 体外 癌症
作者
Zei‐Wei Liu,Cheng‐Ying Chu,Yuling Chen,Chu‐Hung Chung,Fwu‐Long Mi,Ming‐Hua Ho,Wen‐Jing Hsu,Ming‐Yi Hsieh,Ming‐Chen Chiang,Chun‐Yao Huang,Pei‐Wei Shueng,Ching‐Chieh Yang,Chi‐Ching Lee,Cheng‐Wei Lin
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:15 (4): e02769-e02769 被引量:1
标识
DOI:10.1002/adhm.202502769
摘要

Copper metabolism plays a complex role in tumor growth and cancer progression and thus holds potential as a therapeutic target. However, reliable diagnostic markers and therapeutic tools for successfully predicting personalized treatment outcomes with copper inhibition remain elusive. In this study, it is discovered that Yes-associated protein (YAP) expression conferred susceptibility toward cuproptosis. Molecular analyses revealed that YAP inhibition significantly abolished cuproptotic characteristics. Interestingly, YAP inhibition does not affect protein lipoylation but disrupts copper homeostasis. Mechanistically, YAP regulates antioxidant-1 (ATOX1), a copper chaperone, and overexpression of ATOX1 restored cuproptotic sensitivity in YAP-silenced cells. To advance copper-targeting therapy, it is identified that melatonin inhibited YAP signaling and attenuated the expression of copper metabolism-related genes. Furthermore, a copper-based functional nanomaterial, EsMP@Fu is developed, which incorporates melatonin and the cuproptosis inducer elesclomol complex with copper ions (Cu(II)) (Es:Cu). This formulation facilitates cuproptotic cytotoxicity via fucoidan-decorated nanocarrier to enhance the targeted delivery toward tumor cells. In vivo study demonstrated that EsMP@Fu significantly suppressed tumor growth by 60%, with more pronounced effects on distant metastasis and the induction of antitumor immunity. Collectively, the findings demonstrate that YAP overexpression confers sensitivity and therapeutic vulnerability to cuproptosis induction, presenting a promising strategy for precision medicine through tailored copper-based therapy.
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