Autotaxin Inhibition Reduces Post-Ischemic Myocardial Inflammation via Epigenetic Gene Modifications.

IF 4.5 3区医学 Q2 CELL & TISSUE ENGINEERING

Stem Cell Reviews and Reports Pub Date : 2024-10-01 Epub Date: 2024-07-10 DOI:10.1007/s12015-024-10759-7

Landys Z Guo, Himi Tripathi, Erhe Gao, Wadea M Tarhuni, Ahmed Abdel-Latif

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Abstract

Myocardial infarction (MI) triggers a complex inflammatory response that is essential for cardiac repair but can also lead to adverse outcomes if left uncontrolled. Recent studies have highlighted the importance of epigenetic modifications in regulating post-MI inflammation. This study investigated the role of the autotaxin (ATX)/lysophosphatidic acid (LPA) signaling axis in modulating myocardial inflammation through epigenetic pathways in a mouse model of MI. C57BL/6 J mice underwent left anterior descending coronary artery ligation to induce MI and were treated with the ATX inhibitor, PF-8380, or vehicle. Cardiac tissue from the border zone was collected at 6 h, 1, 3, and 7 days post-MI for epigenetic gene profiling using RT² Profiler PCR Arrays. The results revealed distinct gene expression patterns across sham, MI + Vehicle, and MI + PF-8380 groups. PF-8380 treatment significantly altered the expression of genes involved in inflammation, stress response, and epigenetic regulation compared to the vehicle group. Notably, PF-8380 downregulated Hdac5, Prmt5, and Prmt6, which are linked to exacerbated inflammatory responses, as early as 6 h post-MI. Furthermore, PF-8380 attenuated the reduction of Smyd1, a gene important in myogenic differentiation, at 7 days post-MI. This study demonstrates that the ATX/LPA signaling axis plays a pivotal role in modulating post-MI inflammation via epigenetic pathways. Targeting ATX/LPA signaling may represent a novel therapeutic strategy to control inflammation and improve outcomes after MI. Further research is needed to validate these findings in preclinical and clinical settings and to elucidate the complex interplay between epigenetic mechanisms and ATX/LPA signaling in the context of MI.

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抑制 Autotaxin 可通过表观遗传基因修饰减轻缺血后心肌炎症

心肌梗塞（MI）会引发复杂的炎症反应，这对心脏修复至关重要，但如果不加以控制，也会导致不良后果。最近的研究强调了表观遗传修饰在调节心肌梗死后炎症反应中的重要性。本研究在心肌梗死小鼠模型中研究了自体表皮生长因子（ATX）/来苏磷脂酸（LPA）信号轴在通过表观遗传途径调节心肌炎症中的作用。C57BL/6 J小鼠接受冠状动脉左前降支结扎术诱发心肌梗死，并接受ATX抑制剂PF-8380或药物治疗。在心肌梗死后 6 小时、1 天、3 天和 7 天收集边缘区的心脏组织，使用 RT2 Profiler PCR 阵列进行表观遗传学基因分析。结果显示，假心肌梗死组、心肌梗死 + 车辆组和心肌梗死 + PF-8380 组的基因表达模式各不相同。与车辆组相比，PF-8380 治疗明显改变了炎症、应激反应和表观遗传调控相关基因的表达。值得注意的是，早在心肌梗死后 6 小时，PF-8380 就下调了与炎症反应加剧有关的 Hdac5、Prmt5 和 Prmt6。此外，在心肌梗死后 7 天，PF-8380 可减轻 Smyd1 的减少，Smyd1 是一种对成肌细胞分化很重要的基因。这项研究表明，ATX/LPA 信号轴在通过表观遗传途径调节心肌梗死后炎症中起着关键作用。以 ATX/LPA 信号为靶点可能是一种控制炎症和改善心肌梗死后预后的新型治疗策略。要在临床前和临床环境中验证这些发现，并阐明心肌梗死中表观遗传机制和 ATX/LPA 信号转导之间复杂的相互作用，还需要进一步的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Stem Cell Reviews and Reports 医学-细胞生物学

CiteScore

9.30

自引率

4.20%

发文量

审稿时长

3 months

期刊介绍： The purpose of Stem Cell Reviews and Reports is to cover contemporary and emerging areas in stem cell research and regenerative medicine. The journal will consider for publication: i) solicited or unsolicited reviews of topical areas of stem cell biology that highlight, critique and synthesize recent important findings in the field. ii) full length and short reports presenting original experimental work. iii) translational stem cell studies describing results of clinical trials using stem cells as therapeutics. iv) papers focused on diseases of stem cells. v) hypothesis and commentary articles as opinion-based pieces in which authors can propose a new theory, interpretation of a controversial area in stem cell biology, or a stem cell biology question or paradigm. These articles contain more speculation than reviews, but they should be based on solid rationale. vi) protocols as peer-reviewed procedures that provide step-by-step descriptions, outlined in sufficient detail, so that both experts and novices can apply them to their own research. vii) letters to the editor and correspondence. In order to facilitate this exchange of scientific information and exciting novel ideas, the journal has created five thematic sections, focusing on: i) the role of adult stem cells in tissue regeneration; ii) progress in research on induced pluripotent stem cells, embryonic stem cells and mechanism governing embryogenesis and tissue development; iii) the role of microenvironment and extracellular microvesicles in directing the fate of stem cells; iv) mechanisms of stem cell trafficking, stem cell mobilization and homing with special emphasis on hematopoiesis; v) the role of stem cells in aging processes and cancerogenesis.