生物
癌症研究
基因敲除
长春新碱
重编程
蛋白激酶A
信号转导
抗药性
激酶
阿霉素
骨肉瘤
阿尔法(金融)
肉瘤
细胞内
恶性肿瘤
EIF-2激酶
下调和上调
硫链球菌素
曲美替尼
平方毫米
细胞培养
MCL1
综合应力响应
流出
RNA干扰
达沙替尼
作者
Xin Zhou,Yating Yu,Hao Qiu,Zhongliang Deng
摘要
Ewing sarcoma (ES) is an aggressive bone malignancy with poor outcomes for chemotherapy-resistant patients, yet the mechanisms underlying vincristine resistance remain unclear. Here, we identify protein kinase inhibitor alpha (PKIA) as a critical driver of chemoresistance through cAMP-EPAC signaling reprogramming. Transcriptomic analysis of vincristine-resistant ES cells revealed PKIA upregulation, which correlated with poor survival in clinical cohorts (HR = 2.14, p < 0.001). Mechanistically, PKIA overexpression elevated intracellular cAMP levels but suppressed PKA activity, instead activating the noncanonical EPAC-Rap1-ERK pathway to promote drug efflux and survival. Pharmacological inhibition of EPAC with ESI-09 reversed resistance (IC~50~ reduction: 52%, p < 0.01), while PKIA knockdown restored vincristine sensitivity in xenografts. Strikingly, PKIA exhibited a dual role, with low expression in primary ES (potentially tumor-suppressive) and high expression in resistant/metastatic tumors (prosurvival), mirroring observations in prostate and hepatocellular cancers. Our work establishes PKIA as a therapeutic vulnerability and supports targeting the cAMP-EPAC axis to overcome chemoresistance in high-risk ES.
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