化疗肿瘤患者晨疲劳严重程度的数据驱动表观遗传学特征:与表观遗传年龄加速、血细胞类型及表达相关甲基化的关联
A Data-Driven Epigenetic Characterization of Morning Fatigue Severity in Oncology Patients Receiving Chemotherapy: Associations With Epigenetic Age Acceleration, Blood Cell Types, and Expression-Associated Methylation.
作者信息
Le Caroline, Lewis Maureen, Harris Carolyn S, Berger Liam, Chavez-Iglesias Esther, Morse Lisa, Sucher Anatol, Roy Ritu, Olshen Adam, Hammer Marilyn J, Paul Steve, Wallhagen Margaret, Chan Raymond, Sayer Michael, Yom Sue, Cho Nam-Woo, Chan Alexandre, Levine Jon, Dhruva Anand, Miaskowski Christine, Conley Yvette P, Kober Kord M
机构信息
Department of Physiological Nursing, University of California San Francisco, San Francisco, California, USA.
University of California San Francisco Helen Diller Family Comprehensive Cancer Center, San Francisco, California, USA.
出版信息
Cancer Med. 2025 Aug;14(15):e71067. doi: 10.1002/cam4.71067.
BACKGROUND
Moderate-to-severe fatigue commonly occurs in patients with cancer. Given the numerous roles that epigenetic processes may play in the development and severity of fatigue, the purposes of this study were to (1) use a data-driven discovery approach to evaluate for mechanisms underlying morning fatigue in a group of oncology patients receiving chemotherapy and (2) identify common biological mechanisms associated with morning fatigue severity across these independent epigenetic evaluations.
METHODS
Patients completed questionnaires during the week prior to their chemotherapy treatment. Severity of morning fatigue was evaluated using the Lee Fatigue Scale. Associations between morning fatigue severity and epigenetic aging acceleration (EAA), immune cell type compositions, and differential methylation of expression-associated loci (eCpGs) in distal regions (i.e., upstream of a gene on the same chromosome) were evaluated. These results were then evaluated for common biological mechanisms.
RESULTS
High morning fatigue was associated with older epigenetic age, positive EAA, and higher levels of EAA. Patients of the "Fast ager" type were more likely to have high morning fatigue. Higher morning fatigue was associated with lower (CD4 memory, CD8 memory, and NK) and higher (neutrophil and T regulatory) estimated proportions of cell types. Morning fatigue severity was associated with one differentially methylated distal region containing five eCpGs mapping to three genes (i.e., CILP, ONECUT1, SLCO3A1). Preliminary support was found for the role of Inflammaging as a common biological mechanism for morning fatigue.
CONCLUSIONS
This study provides an epigenetic characterization of morning fatigue in patients receiving chemotherapy. The findings suggest that biological aging, gene regulatory, and inflammatory processes may contribute to morning fatigue and provide future targets for therapeutic interventions.
背景
中重度疲劳在癌症患者中普遍存在。鉴于表观遗传过程可能在疲劳的发生和严重程度中发挥多种作用,本研究的目的是:(1)使用数据驱动的发现方法,评估一组接受化疗的肿瘤患者早晨疲劳的潜在机制;(2)在这些独立的表观遗传评估中,确定与早晨疲劳严重程度相关的常见生物学机制。
方法
患者在化疗前一周内完成问卷调查。使用李氏疲劳量表评估早晨疲劳的严重程度。评估早晨疲劳严重程度与表观遗传衰老加速(EAA)、免疫细胞类型组成以及远端区域(即同一条染色体上基因的上游)表达相关位点(eCpG)的差异甲基化之间的关联。然后对这些结果进行常见生物学机制的评估。
结果
早晨疲劳程度高与表观遗传年龄较大、EAA为阳性以及EAA水平较高有关。“快速衰老”类型的患者更有可能出现早晨疲劳程度高的情况。早晨疲劳程度高与较低的(CD4记忆细胞、CD8记忆细胞和自然杀伤细胞)以及较高的(中性粒细胞和调节性T细胞)估计细胞类型比例相关。早晨疲劳严重程度与一个差异甲基化的远端区域相关,该区域包含五个映射到三个基因(即CILP、ONECUT1、SLCO3A1)的eCpG。初步证据支持炎症衰老作为早晨疲劳的常见生物学机制的作用。
结论
本研究提供了接受化疗患者早晨疲劳的表观遗传学特征。研究结果表明,生物衰老、基因调控和炎症过程可能导致早晨疲劳,并为未来的治疗干预提供靶点。
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