Anticancer Plant Secondary Metabolites Induce Linker Histone Depletion from Chromatin.

IF 3.3 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Frontiers in bioscience (Landmark edition) Pub Date : 2024-08-05 DOI:10.31083/j.fbl2908275
Olga Vlasova, Irina Antonova, Roman Zenkov, Denis Naberezhnov, Gennady Belitsky, Anna Borunova, Tatiana Zabotina, Daniel García-Gomis, Alfiya Safina, Katerina Gurova, Andrei Gudkov, Kirill Kirsanov, Albert Jordan, Marianna Yakubovskaya
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Abstract

Background: Many plant secondary metabolites (PSMs) were shown to intercalate into DNA helix or interact with DNA grooves. This may influence histone-DNA interactions changeing chromatin structure and genome functioning.

Methods: Nucleosome stability and linker histone H1.2, H1.4 and H1.5 localizations were studied in HeLa cells after the treatment with 15 PSMs, which are DNA-binders and possess anticancer activity according to published data. Chromatin remodeler CBL0137 was used as a control. Effects of PSMs were studied using fluorescent microscopy, flowcytometry, quantitative reverse transcriptase-polymerase chain reaction (RT-qPCR), western-blotting.

Results: We showed that 1-hour treatment with CBL0137 strongly inhibited DNA synthesis and caused intensive linker histone depletion consistent with nucleosome destabilization. None of PSMs caused nucleosome destabilization, while most of them demonstrated significant influence on linker histone localizations. In particular, cell treatment with 11 PSMs at non-toxic concentrations induced significant translocation of the histone H1.5 to nucleoli and most of PSMs caused depletion of the histones H1.2 and H1.4 from chromatin fraction. Curcumin, resveratrol, berberine, naringenin, and quercetin caused significant redistribution of all three variants of the studied linker histones showing some overlap of PSM effects on linker histone DNA-binding. We demonstrated that PSMs, which induced the most significant redistribution of the histone H1.5 (berberine, curcumin and naringenin), influence the proportion of cells synthesizing DNA, expressing or non-expressing cyclin B and influence cell cycle distribution. Berberine induction of H1.5 translocations to nucleoli was shown to occur independently on the phases of cell cycle (metaphase was not analyzed).

Conclusions: For the first time we revealed PSM influence on linker histone location in cell nuclei that opens a new direction of PSM research as anticancer agents.

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抗癌植物次生代谢物诱导染色质中的连接组蛋白耗竭
背景:许多植物次生代谢物(PSMs)被证明能插入DNA螺旋或与DNA沟相互作用。这可能会影响组蛋白与 DNA 之间的相互作用,从而改变染色质结构和基因组功能:方法:用 15 种 PSMs 处理 HeLa 细胞后,研究了核小体的稳定性和连接组蛋白 H1.2、H1.4 和 H1.5 的定位。染色质重塑剂 CBL0137 用作对照。使用荧光显微镜、流式细胞仪、定量逆转录酶聚合酶链反应(RT-qPCR)和西方印迹法研究了 PSMs 的作用:结果表明:CBL0137处理1小时后会强烈抑制DNA合成,并导致与核小体不稳定一致的密集连接组蛋白耗竭。没有一种 PSMs 会导致核小体失稳,而大多数 PSMs 对连接组蛋白的定位有显著影响。特别是,用 11 种无毒浓度的 PSMs 处理细胞会诱导组蛋白 H1.5 向核小体显著易位,大多数 PSMs 会导致染色质部分的组蛋白 H1.2 和 H1.4 丢失。姜黄素、白藜芦醇、小檗碱、柚皮苷和槲皮素导致所研究的链接组蛋白的所有三种变体都发生了显著的重新分布,这表明 PSM 对链接组蛋白 DNA 结合的影响存在一定的重叠。我们证明,诱导组蛋白 H1.5 重分布最明显的 PSMs(小檗碱、姜黄素和柚皮苷)会影响合成 DNA、表达或不表达细胞周期蛋白 B 的细胞比例,并影响细胞周期分布。小檗碱诱导H1.5向核小体易位的过程与细胞周期的不同阶段无关(未分析分裂期):我们首次揭示了 PSM 对细胞核中连接组蛋白位置的影响,为 PSM 作为抗癌药物的研究开辟了新方向。
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