Selective CDK9 knockdown sensitizes TRAIL response by suppression of antiapoptotic factors and NF-kappaB pathway
Yuan Qian, Su Kui, Li Shuyi, Long Xinyi, Liu Lang, Sun Jianwu, Yuan Xin, Yang Minghui, Tian Rui, Zhang Wanting, Deng Zhujie, Li Quanjiang, Ke Changhong, He Yue, Cheng Chunming, Yuan Jingna, Wen Zhuoh
Journal:APOPTOSIS
IF:7.2
DOI:10.1007/s10495-023-01842-4
PMID:37060507
Published:2023-04-15
research field:分子生物学癌症生物学治疗学
Abstract
The aberrantly up-regulated CDK9 can be targeted for cancer therapy. The CDK inhibitor dinaciclib (Dina) has been found to drastically sensitizes cancer response to TRAIL-expressing extracellular vesicle (EV-T). However, the low selectivity of Dina has limited its application for cancer. We propose that CDK9-targeted siRNA (siCDK9) may be a good alternative to Dina. The siCDK9 molecules were encapsulated into EV-Ts to prepare a complexed nanodrug (siEV-T). It was shown to efficiently suppress CDK9 expression and overcome TRAIL resistance to induce strikingly augmented apoptosis in lung cancer both in vitro and in vivo, with a mechanism related to suppression of both anti-apoptotic factors and nuclear factor-kappa B pathway. Therefore, siEV-T potentially constitutes a novel, highly effective and safe therapy for cancers.
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