长期代谢重编程后，三阴性乳腺癌细胞中的组蛋白丁酰化/乙酰化保持不变。

Histone Butyrylation/ Acetylation Remains Unchanged in Triple Negative Breast Cancer Cells after a Long Term Metabolic Reprogramming.

作者信息

Mehdikhani Fatemeh, Ghahremani Hossein, Nabati Saeedeh, Tahmouri Hanieh, Sirati-Sabet Majid, Salami Siamak

机构信息

Department of Clinical Biochemistry, School of Medicine, Shahid Beheshti University of Medical Science, Tehran, Iran.

出版信息

Asian Pac J Cancer Prev. 2019 Dec 1;20(12):3597-3601. doi: 10.31557/APJCP.2019.20.12.3597.

DOI:10.31557/APJCP.2019.20.12.3597

PMID:31870099

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7173388/

Abstract

BACKGROUND

Altered metabolism is one of the hallmarks of the cancer cells which reciprocally interrelate with epigenetic processes, such as post-translational histone modifications to maintain their desired gene expression profiles. The role of beta-hydroxybutyrate as a ketone body in cancer cell biology and histone modifications are reported. The present study aimed to evaluate the impacts of long-term metabolic reprogramming via glucose restriction and beta-hydroxybutyrate treatment on histone acetylation and butyrylation in MDA-MB231 cells as a model of triple negative stem-like breast cancer.

METHODS

For long-term treatment, cells were set up in three groups receiving DMEM with restricted glucose (250 mg/L), DMEM with restricted glucose but enriched with five millimolar beta-hydroxybutyrate and DMEM with standard glucose (1gL) and investigated for a month. Histone modifications, including H3 acetylation and butyrylation, were investigated by immunoblotting after an acid extraction of the histone proteins.

RESULTS AND CONCLUSION

Neither beta-hydroxybutyrate enrichment nor glucose restriction elicited a significant effect on the butyrylation or acetylation level of histone H3 upon a long-term treatment. Metabolic plasticity of cancer cells, mainly stem-like triple negative breast cancer cells alleviate or neutralize the impact of long-term metabolic reprogramming via restriction of glucose and histone modifications enrichment. These results shed new light upon the mechanism of controversial efficacy of ketogenic diets in clinical trials.

摘要

背景

代谢改变是癌细胞的特征之一，它与表观遗传过程相互关联，例如翻译后组蛋白修饰以维持其所需的基因表达谱。据报道，β-羟基丁酸作为一种酮体在癌细胞生物学和组蛋白修饰中的作用。本研究旨在评估通过葡萄糖限制和β-羟基丁酸处理进行的长期代谢重编程对MDA-MB231细胞（一种三阴性干细胞样乳腺癌模型）中组蛋白乙酰化和丁酰化的影响。

方法

进行长期处理时，将细胞分为三组，分别接受葡萄糖受限的DMEM（250 mg/L）、葡萄糖受限但富含5毫摩尔β-羟基丁酸的DMEM和标准葡萄糖（1g/L）的DMEM，并进行为期一个月的研究。在对组蛋白进行酸提取后，通过免疫印迹法研究包括H3乙酰化和丁酰化在内的组蛋白修饰。

结果与结论

长期处理后，β-羟基丁酸富集和葡萄糖限制均未对组蛋白H3的丁酰化或乙酰化水平产生显著影响。癌细胞的代谢可塑性，主要是干细胞样三阴性乳腺癌细胞，通过限制葡萄糖和组蛋白修饰富集来减轻或抵消长期代谢重编程的影响。这些结果为临床试验中生酮饮食疗效存在争议的机制提供了新的线索。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17f8/7173388/068ca6de3890/APJCP-20-3597-g001.jpg

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长期代谢重编程后，三阴性乳腺癌细胞中的组蛋白丁酰化/乙酰化保持不变。

Histone Butyrylation/ Acetylation Remains Unchanged in Triple Negative Breast Cancer Cells after a Long Term Metabolic Reprogramming.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS AND CONCLUSION

背景

方法

结果与结论

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