Melittin treatment suppressed malignant NSCLC progression through enhancing CTSB-mediated hyperautophagy.

Yuhan Wang, Tailei Yuan, Longyue He, Jingjing Huang, Nodemsahajoel Wilfred, Wenhui Yang, Mingming Jin, Gang Huang, Changlian Lu
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Abstract

Melittin is preclinically investigated as anticancer agent in multiple tumor types. But its regulation role and regulatory mechanism regarding NSCLC is unknown. In our investigation, Proteomic test was employed to identify proteins that expressed abnormally in cancer cells and that with Melittin treatmented. The results showed CTSB was one of the Top proteins with different expression levels in the lysosomes of Melittin-treatmented cancer cells and showed an up-regulation trend. CTSB expression was increased in NSCLC cancer tissues compared to adjacent normal tissues, as demonstrated in lung cancer tissue chips experiment. However, Melittin treatment increased the CTSB level in lysosomes, which inhibited the malignant progression of NSCLC. We hypothesized that the relative homeostasis of CTSB in cancer cells was destroyed, and CTSB exerts its hydrolytic effect excessively, resulting in excessive autophagy of cancer cells, thus inhibiting the malignant progression of cancer cells. The direct combination of Melittin and CTSB was proposed by molecular docking technique, LiP-SMap was used to analyze the target genes and active components extracted from high-throughput sequencing proteomic data, and successfully verified that melittin was successfully demonstrated to directly target CTSB-binding. In vivo and in vitro studies have shown that Melittin treatment inhibits the malignant progression of A549 and HCC1833 cells and animal tumors, namely non-small cell lung cancer, by promoting CTSB-mediated hyperautophagy. CTSB-specific inhibitor CA-074 Me and autophagy inhibitor 3-MA treatment reversed the inhibit effect of Melittin to the malignant progression of NSCLC. Taken together, Melittin treatment inhibited malignant progression regarding NSCLC through enhancing CTSB-mediated hyperautophagy.

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美利汀通过增强CTSB介导的低自噬作用抑制了恶性非小细胞肺癌的进展。
临床前研究发现,美利汀可作为多种肿瘤类型的抗癌剂。但它对 NSCLC 的调节作用和调节机制尚不清楚。在我们的研究中,我们采用了蛋白质组学测试来鉴定癌细胞中异常表达的蛋白质以及美利汀治疗后异常表达的蛋白质。结果表明,CTSB是美利汀治疗的癌细胞溶酶体中表达水平不同的顶级蛋白之一,且呈上升趋势。肺癌组织芯片实验表明,与邻近的正常组织相比,CTSB在NSCLC癌组织中的表达量有所增加。然而,美利汀能提高溶酶体中的 CTSB 水平,从而抑制 NSCLC 的恶性进展。我们推测,癌细胞中CTSB的相对平衡被破坏,CTSB过度发挥水解作用,导致癌细胞过度自噬,从而抑制了癌细胞的恶性进展。通过分子对接技术提出了美利汀与CTSB的直接结合,利用LiP-SMap分析了从高通量测序蛋白质组数据中提取的靶基因和活性成分,成功验证了美利汀直接靶向结合CTSB。体内和体外研究表明,美利汀通过促进CTSB介导的低自噬作用,抑制了A549和HCC1833细胞以及动物肿瘤(即非小细胞肺癌)的恶性进展。CTSB特异性抑制剂CA-074 Me和自噬抑制剂3-MA可逆转美利汀对NSCLC恶性进展的抑制作用。综上所述,美利汀通过增强CTSB介导的高自噬作用抑制了NSCLC的恶性进展。
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