The role of post-transcriptional modification on a new tRNAIle(GAU) identified from Ganoderma lucidum in its fragments’ cytotoxicity on cancer cells

细胞毒性 灵芝 癌细胞 癌症 灵芝 生物 转录活性 化学 生物化学 计算生物学 转录因子 遗传学 基因 体外 食品科学
作者
Fei Ren,Kai‐Yue Cao,Rui‐Ze Gong,Meng-Lan Yu,Peng Tao,Yi Xiao,Zhi‐Hong Jiang
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:229: 885-895 被引量:12
标识
DOI:10.1016/j.ijbiomac.2022.12.327
摘要

Ganoderma lucidum (Ganoderma) is a famous Chinese herbal medicine which has been used clinically for thousands of years in China. Despite numerous studies on triterpenes and polysaccharides, the bioactivity of RNAs abundant in Ganoderma remains unknown. Here, based on LC-MS techniques, dihydrouracil, 5-methyluridine (m5U) and pseudouridine were identified at position 19, 52 and 53 of a new tRNAIle(GAU) which was isolated as the most abundant tRNA species in Ganoderma, and is the first purified tRNA from fungus. Cytotoxic screening of tRNA-half (t-half) and tRNA fragment (tRF) derived from this tRNA, as well as their mimics (t-half or tRF as antisense strand), demonstrated that the double-stranded form, i.e., tRF and t-halve mimics, exhibited stronger cytotoxicity than their single-stranded form, and the cytotoxicity of t-half mimic is significantly stronger than that of tRF mimic. Notably, the cytotoxicity of 3'-t-half mimic is not only much more potent than that of taxol, but also is much more potent than that of ganoderic acids, the major bioactive components in Ganoderma. Furthermore, 3'-t-half mimic_M2 (m5U modified) exhibited significantly stronger cytotoxicity than unmodified 3'-t-half mimic, which is consistent with the computational simulation showing that m5U modification enhances the stability of the tertiary structure of 3'-t-half mimic. Overall, the present study not only indicates t-halves are bioactive components in Ganoderma which should not be neglected, but also reveals an important role of post-transcriptional modification on tRNA in its fragments’ cytotoxicity against cancer cells, which benefits the design and development of RNAi drugs from natural resource.
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