关于中风后关键表观遗传调节剂的系统研究

Dhruv Parikh , Manan Shah
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引用次数: 0

摘要

中风是一种医疗急症,其特点是脑部血流突然中断,导致细胞缺氧死亡。脑卒中是导致全球死亡和长期残疾的主要原因,是一项日益严峻的社会经济挑战,而人口结构的变化和年轻人发病率的增加又加剧了这一挑战。分析中风后的状况对于预测康复轨迹和指导个性化治疗至关重要。这一过程对于减轻中风幸存者及其家人的长期认知障碍和提高生活质量至关重要。表观遗传学机制正在成为关键的影响因素,四种重要的调节因子--miRNAs、lncRNAs、DNA 甲基化和组蛋白修饰--被认为是调节神经元修复和再生的核心。然而,人们对主要表观遗传特征如何影响中风后的恢复还缺乏了解。本文系统回顾了 miRNAs 微调神经保护反应的能力以及 lncRNAs 更广泛的调控功能。此外,我们还研究了 DNA 甲基化模式和组蛋白修饰的变化与中风预后的相关性,为精确的表观遗传疗法提供了依据。在这篇综述中,我们强调这些调节因子为促进康复提供了有前景的治疗目标,并为中风病理和治疗提供了新的见解。我们还对四种调节剂进行了比较分析,并介绍了每种调节剂所面临的挑战和未来展望。这篇综述为未来的研究指明了方向,强调开发基于表观遗传学的新型疗法是加强中风后神经康复和改善患者预后的开创性方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A systematic study on key Epigenetic modulators in post-stroke conditions

A stroke is a medical emergency characterized by the sudden interruption of blood flow to the brain, leading to cell death from oxygen deprivation. As a leading cause of mortality and long-term disability worldwide, strokes present a growing socioeconomic challenge, exacerbated by demographic shifts and an increasing incidence in younger populations. Analyzing post-stroke conditions is essential for predicting recovery trajectories and guiding personalized treatments. The process is crucial for mitigating long-term cognitive deficits and improving the quality of life for stroke survivors and their families. Epigenetic mechanisms are emerging as key influencers, with four significant modulators—miRNAs, lncRNAs, DNA methylation, and histone modifications—being identified as central to modulating neuronal repair and regeneration. However, this is a lack of knowledge as to how major epigenetic signatures affect post-stroke recovery. The paper systematically reviews the capacity of miRNAs to fine-tune neuroprotective responses and the broader regulatory functions of lncRNAs. Additionally, we examine how shifts in DNA methylation patterns and histone modifications correlate with stroke outcomes, presenting a case for precise epigenetic therapies. In this review, we highlight that these modulators offer promising therapeutic targets for enhancing recovery and provide novel insights into stroke pathology and treatment. We also offer a comparative analysis of the four modulators and present the challenges and future perspectives for each one. The review sets forth a trajectory for future research, underscoring the development of novel epigenetic-based therapeutics as a groundbreaking approach to enhance post-stroke neurorehabilitation and improve patient prognoses.

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Advances in biomarker sciences and technology
Advances in biomarker sciences and technology Biotechnology, Clinical Biochemistry, Molecular Medicine, Public Health and Health Policy
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