硫氧还蛋白还原酶抑制和谷胱甘肽耗竭由青光素 A 介导,可促进胃癌细胞内的二硫化物应激。

Ling Wang, Shibo Sun, Haowen Liu, Qiuyu Zhang, Yao Meng, Fan Sun, Jianjun Zhang, Haiyan Liu, Weiping Xu, Zhiwei Ye, Jie Zhang, Bingbing Sun, Jianqiang Xu
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摘要

硫氧还蛋白还原酶 1(TXNRD1)已被确定为有望成为癌细胞化疗靶点的药物之一。因此,新型 TXNRD1 抑制剂可以加速临床抗癌研究中的化疗进程。在这项研究中,我们发现了一种新型的 TXNRD1 抑制剂--琉璃萼素 A(GlauA),它是从 Rabdosia japonica var.我们发现 GlauA 能有效抑制重组 TXNRD1 并降低其在胃癌细胞中的活性,而不会影响该酶的表达水平。从机理上讲,GlauA 通过迈克尔加成不可逆地修饰了 TXNRD1 的硒半胱氨酸残基(U498)。此外,GlauA 还与谷胱甘肽(GSH)形成共价加合物,并通过消耗细胞的 GSH 破坏细胞的氧化还原平衡。在 AGS 细胞的球形培养和 Transwell 试验中,GlauA 对 TXNRD1 的抑制和对 GSH 的消耗产生了细胞毒性作用。加入还原剂(如 DTT 和 β-ME)可减轻 GlauA 的二硫化物应激诱导的细胞毒性。此外,美国食品与药物管理局(FDA)批准的药物auranofin(一种TXNRD1抑制剂)在AGS细胞中引发了细胞骨架蛋白Talin-1的寡聚化,这表明抑制TXNRD1会引发二硫应激。总之,本研究发现 GlauA 是 TXNRD1 的高效抑制剂,并证明了抑制 TXNRD1 有可能通过破坏氧化还原平衡和诱导二硫应激成为一种有效的抗癌策略。
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Thioredoxin reductase inhibition and glutathione depletion mediated by glaucocalyxin A promote intracellular disulfide stress in gastric cancer cells.

Thioredoxin reductase 1 (TXNRD1) has been identified as one of the promising chemotherapeutic targets in cancer cells. Therefore, a novel TXNRD1 inhibitor could accelerate chemotherapy in clinical anticancer research. In this study, glaucocalyxin A (GlauA), a natural diterpene extracted from Rabdosia japonica var. glaucocalyx, was identified as a novel inhibitor of TXNRD1. We found that GlauA effectively inhibited recombinant TXNRD1 and reduced its activity in gastric cancer cells without affecting the enzyme's expression level. Mechanistically, the selenocysteine residue (U498) of TXNRD1 was irreversibly modified by GlauA through a Michael addition. Additionally, GlauA formed a covalent adduct with glutathione (GSH) and disrupted cellular redox balance by depleting cellular GSH. The inhibition of TXNRD1 and depletion of GSH by GlauA conferred its cytotoxic effects in spheroid culture and Transwell assays in AGS cells. The disulfide stress induced cytotoxicity of GlauA could be mitigated by adding reducing agents, such as DTT and β-ME. Furthermore, the FDA-approval drug auranofin, a TXNRD1 inhibitor, triggered oligomerization of the cytoskeletal protein Talin-1 in AGS cells, indicating that inhibiting TXNRD1 triggered disulfide stress. In conclusion, this study uncovered GlauA as an efficient inhibitor of TXNRD1 and demonstrated the potential of TXNRD1 inhibition as an effective anticancer strategy by disrupting redox homeostasis and inducing disulfide stress.

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