Epigenetic biomarkers in Alzheimer's disease: Diagnostic and prognostic relevance

IF 12.5 1区 医学 Q1 CELL BIOLOGY Ageing Research Reviews Pub Date : 2024-10-28 DOI:10.1016/j.arr.2024.102556
Tapan Behl , Ashishkumar Kyada , R. Roopashree , Deepak Nathiya , Renu Arya , M. Ravi Kumar , Mohammad Khalid , Monica Gulati , Monika Sachdeva , Mohammad Fareed , Pratap Kumar Patra , Ankur Agrawal , Pranay Wal , Amin Gasmi
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Abstract

Alzheimer's disease (AD) is a leading cause of cognitive decline in the aging population, presenting a critical need for early diagnosis and effective prognostic tools. Epigenetic modifications, including DNA methylation, histone modifications, and non-coding RNAs, have emerged as promising biomarkers for AD due to their roles in regulating gene expression and potential for reversibility. This review examines the current landscape of epigenetic biomarkers in AD, emphasizing their diagnostic and prognostic relevance. DNA methylation patterns in genes such as APP, PSEN1, and PSEN2 are highlighted for their strong associations with AD pathology. Alterations in DNA methylation at specific CpG sites have been consistently observed in AD patients, suggesting their utility in early detection. Histone modifications, such as acetylation and methylation, also play a crucial role in chromatin remodelling and gene expression regulation in AD. Dysregulated histone acetylation and methylation have been linked to AD progression, making these modifications valuable biomarkers. Non-coding RNAs, including microRNAs (miRNAs) and long non-coding RNAs (lncRNAs), further contribute to the epigenetic regulation in AD. miRNAs can modulate gene expression post-transcriptionally and have been found in altered levels in AD, while lncRNAs can influence chromatin structure and gene expression. The presence of these non-coding RNAs in biofluids like blood and cerebrospinal fluid positions them as accessible and minimally invasive biomarkers. Technological advancements in detecting and quantifying epigenetic modifications have propelled the field forward. Techniques such as next-generation sequencing, bisulfite sequencing, and chromatin immunoprecipitation assays offer high sensitivity and specificity, enabling the detailed analysis of epigenetic changes in clinical samples. These tools are instrumental in translating epigenetic research into clinical practice. This review underscores the potential of epigenetic biomarkers to enhance the early diagnosis and prognosis of AD, paving the way for personalized therapeutic strategies and improved patient outcomes. The integration of these biomarkers into clinical workflows promises to revolutionize AD management, offering hope for better disease monitoring and intervention.
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阿尔茨海默病的表观遗传生物标志物:诊断和预后相关性。
阿尔茨海默病(AD)是老龄人口认知能力下降的主要原因,因此亟需早期诊断和有效的预后工具。表观遗传修饰,包括DNA甲基化、组蛋白修饰和非编码RNA,因其在调控基因表达方面的作用和潜在的可逆性,已成为有希望的阿尔茨海默病生物标志物。这篇综述探讨了AD表观遗传生物标志物的现状,强调了它们在诊断和预后方面的相关性。APP、PSEN1和PSEN2等基因的DNA甲基化模式与AD病理学密切相关,因此被重点讨论。在 AD 患者中持续观察到特定 CpG 位点的 DNA 甲基化改变,这表明它们在早期检测中的作用。组蛋白修饰(如乙酰化和甲基化)在染色质重塑和 AD 基因表达调控中也起着至关重要的作用。组蛋白乙酰化和甲基化失调与老年痴呆症的进展有关,因此这些修饰成为有价值的生物标志物。包括微小RNA(miRNA)和长非编码RNA(lncRNA)在内的非编码RNA进一步促进了AD的表观遗传调控。miRNA可以转录后调控基因表达,在AD中已发现其水平发生了改变,而lncRNA可以影响染色质结构和基因表达。这些非编码 RNA 存在于血液和脑脊液等生物流体中,使它们成为可获取的微创生物标记物。检测和量化表观遗传修饰的技术进步推动了这一领域的发展。新一代测序、亚硫酸氢盐测序和染色质免疫沉淀检测等技术具有高灵敏度和高特异性,可对临床样本中的表观遗传变化进行详细分析。这些工具有助于将表观遗传学研究转化为临床实践。这篇综述强调了表观遗传生物标志物在提高早期诊断和预后方面的潜力,为个性化治疗策略和改善患者预后铺平了道路。将这些生物标志物纳入临床工作流程有望彻底改变注意力缺失症的管理,为更好地监测和干预疾病带来希望。
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
Ageing Research Reviews
Ageing Research Reviews 医学-老年医学
CiteScore
19.80
自引率
2.30%
发文量
216
审稿时长
55 days
期刊介绍: With the rise in average human life expectancy, the impact of ageing and age-related diseases on our society has become increasingly significant. Ageing research is now a focal point for numerous laboratories, encompassing leaders in genetics, molecular and cellular biology, biochemistry, and behavior. Ageing Research Reviews (ARR) serves as a cornerstone in this field, addressing emerging trends. ARR aims to fill a substantial gap by providing critical reviews and viewpoints on evolving discoveries concerning the mechanisms of ageing and age-related diseases. The rapid progress in understanding the mechanisms controlling cellular proliferation, differentiation, and survival is unveiling new insights into the regulation of ageing. From telomerase to stem cells, and from energy to oxyradical metabolism, we are witnessing an exciting era in the multidisciplinary field of ageing research. The journal explores the cellular and molecular foundations of interventions that extend lifespan, such as caloric restriction. It identifies the underpinnings of manipulations that extend lifespan, shedding light on novel approaches for preventing age-related diseases. ARR publishes articles on focused topics selected from the expansive field of ageing research, with a particular emphasis on the cellular and molecular mechanisms of the aging process. This includes age-related diseases like cancer, cardiovascular disease, diabetes, and neurodegenerative disorders. The journal also covers applications of basic ageing research to lifespan extension and disease prevention, offering a comprehensive platform for advancing our understanding of this critical field.
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