内皮细胞中基质刚度介导的DNA甲基化

Matrix Stiffness-Mediated DNA Methylation in Endothelial Cells.

作者信息

Taufalele Paul V, Kirkham Hannah K, Reinhart-King Cynthia A

机构信息

Department of Biomedical Engineering, Vanderbilt University, Nashville, TN USA.

Bioengineering Department, Rice University, Houston, TX USA.

出版信息

Cell Mol Bioeng. 2025 Jan 17;18(1):29-38. doi: 10.1007/s12195-024-00836-9. eCollection 2025 Feb.

DOI:10.1007/s12195-024-00836-9

PMID:39949487

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11813852/

Abstract

PURPOSE

Altered tissue mechanics is a prominent feature of many pathological conditions including cancer. As such, much work has been dedicated to understanding how mechanical features of tissues contribute to pathogenesis. Interestingly, previous work has demonstrated that the tumor vasculature acquires pathological features in part due to enhanced tumor stiffening. To further understand how matrix mechanics may be translated into altered cell behavior and ultimately affect tumor vasculature function, we have investigated the effects of substrate stiffening on endothelial epigenetics. Specifically, we have focused on DNA methylation as recent work indicates DNA methylation in endothelial cells can contribute to aberrant behavior in a range of pathological conditions.

METHODS

Human umbilical vein endothelial cells (HUVECs) were seeded on stiff and compliant collagen-coated polyacrylamide gels and allowed to form monolayers over 5 days. DNA methylation was assessed via 5-methylcytosine ELISA assays and immunofluorescent staining. Gene expression was assessed via qPCR on RNA isolated from HUVECs seeded on collagen-coated polyacrylamide gels of varying stiffness.

RESULTS

Our work demonstrates that endothelial cells cultured on stiffer substrates exhibit lower levels of global DNA methylation relative to endothelial cells cultured on more compliant substrates. Interestingly, gene expression and DNA methylation dynamics suggest stiffness-mediated gene expression may play a role in establishing or maintaining differential DNA methylation levels in addition to enzyme activity. Additionally, we found that the process of passaging induced higher levels of global DNA methylation.

CONCLUSIONS

Altogether, our results underscore the importance of considering cell culture substrate mechanics to preserve the epigenetic integrity of primary cells and obtain analyses that recapitulate the primary environment. Furthermore, these results serve as an important launching point for further work studying the intersection tissue mechanics and epigenetics under pathological conditions.

摘要

目的

组织力学改变是包括癌症在内的许多病理状况的一个显著特征。因此，许多工作致力于理解组织的力学特征如何促成发病机制。有趣的是，先前的研究表明肿瘤血管系统部分由于肿瘤硬度增加而获得病理特征。为了进一步理解基质力学如何转化为细胞行为改变并最终影响肿瘤血管系统功能，我们研究了底物硬度对内皮细胞表观遗传学的影响。具体而言，我们聚焦于DNA甲基化，因为最近的研究表明内皮细胞中的DNA甲基化可在一系列病理状况下导致异常行为。

方法

将人脐静脉内皮细胞（HUVECs）接种在坚硬和柔软的胶原包被的聚丙烯酰胺凝胶上，并使其在5天内形成单层。通过5-甲基胞嘧啶ELISA测定和免疫荧光染色评估DNA甲基化。通过对从接种在不同硬度的胶原包被的聚丙烯酰胺凝胶上的HUVECs分离的RNA进行qPCR来评估基因表达。

结果

我们的研究表明，相对于在更柔软底物上培养的内皮细胞，在更坚硬底物上培养的内皮细胞表现出较低水平的整体DNA甲基化。有趣的是，基因表达和DNA甲基化动态表明，除了酶活性外，硬度介导的基因表达可能在建立或维持差异DNA甲基化水平中发挥作用。此外，我们发现传代过程诱导了更高水平的整体DNA甲基化。

结论

总之，我们的结果强调了考虑细胞培养底物力学以保持原代细胞表观遗传完整性并获得概括原代环境的分析的重要性。此外，这些结果是进一步研究病理状况下组织力学与表观遗传学交叉领域的重要起点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/308c/11813852/6c8040b1c3c2/12195_2024_836_Fig1_HTML.jpg

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内皮细胞中基质刚度介导的DNA甲基化

Matrix Stiffness-Mediated DNA Methylation in Endothelial Cells.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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