Back pain exercise therapy remodels human epigenetic profiles in buccal and human peripheral blood mononuclear cells: an exploratory study in young male participants.
Claire Burny, Mia Potočnjak, Annika Hestermann, Sophie Gartemann, Michael Hollmann, Frank Schifferdecker-Hoch, Nina Markanovic, Simone Di Sanzo, Michael Günsel, Victor Solis-Mezarino, Moritz Voelker-Albert
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Abstract
Background: With its high and increasing lifetime prevalence, back pain represents a contemporary challenge for patients and healthcare providers. Monitored exercise therapy is a commonly prescribed treatment to relieve pain and functional limitations. However, the benefits of exercise are often gradual, subtle, and evaluated by subjective self-reported scores. Back pain pathogenesis is interlinked with epigenetically mediated processes that modify gene expression without altering the DNA sequence. Therefore, we hypothesize that therapy effects can be objectively evaluated by measurable epigenetic histone posttranslational modifications and proteome expression. Because epigenetic modifications are dynamic and responsive to environmental exposure, lifestyle choices-such as physical activity-can alter epigenetic profiles, subsequent gene expression, and health traits. Instead of invasive sampling (e.g., muscle biopsy), we collect easily accessible buccal swabs and plasma. The plasma proteome provides a systemic understanding of a person's current health state and is an ideal snapshot of downstream, epigenetically regulated, changes upon therapy. This study investigates how molecular profiles evolve in response to standardized sport therapy and non-controlled lifestyle choices.
Results: We report that the therapy improves agility, attenuates back pain, and triggers healthier habits. We find that a subset of participants' histone methylation and acetylation profiles cluster samples according to their therapy status, before or after therapy. Integrating epigenetic reprogramming of both buccal cells and peripheral blood mononuclear cells (PBMCs) reveals that these concomitant changes are concordant with higher levels of self-rated back pain improvement and agility gain. Additionally, epigenetic changes correlate with changes in immune response plasma factors, reflecting their comparable ability to rate therapy effects at the molecular level. We also performed an exploratory analysis to confirm the usability of molecular profiles in (1) mapping lifestyle choices and (2) evaluating the distance of a given participant to an optimal health state.
Conclusion: This pre-post cohort study highlights the potential of integrated molecular profiles to score therapy efficiency. Our findings reflect the complex interplay of an individual's background and lifestyle upon therapeutic exposure. Future studies are needed to provide mechanistic insights into back pain pathogenesis and lifestyle-based epigenetic reprogramming upon sport therapy intervention to maintain therapeutic effects in the long run.
背景:背痛的发病率很高,而且终身发病率不断上升,是当代患者和医疗服务提供者面临的一项挑战。监测运动疗法是缓解疼痛和功能限制的常用治疗方法。然而,运动的益处往往是渐进的、微妙的,并通过主观的自我报告评分来评估。背痛的发病机制与表观遗传学介导的过程相互关联,这些过程在不改变 DNA 序列的情况下改变了基因表达。因此,我们假设可以通过可测量的表观遗传组蛋白翻译后修饰和蛋白质组表达来客观评估治疗效果。由于表观遗传修饰是动态的,并对环境暴露做出反应,因此生活方式的选择(如体育锻炼)会改变表观遗传特征、随后的基因表达和健康特征。我们不采用侵入性取样(如肌肉活检),而是收集易于获取的口腔拭子和血浆。血浆蛋白质组能系统地了解一个人当前的健康状况,是治疗后表观遗传调控的下游变化的理想快照。本研究调查了分子特征是如何随着标准化运动疗法和非控制性生活方式的选择而变化的:结果:我们报告说,该疗法提高了灵活性,减轻了背痛,并引发了更健康的生活习惯。我们发现,一部分参与者的组蛋白甲基化和乙酰化图谱会根据其治疗状态、治疗前或治疗后对样本进行聚类。通过对口腔细胞和外周血单核细胞(PBMCs)进行表观遗传学重编程,我们发现这些同时发生的变化与自评背痛改善和敏捷性提高的程度相一致。此外,表观遗传学的变化与免疫反应血浆因子的变化相关,反映了它们在分子水平上评价治疗效果的能力相当。我们还进行了一项探索性分析,以确认分子图谱在以下方面的可用性:(1)绘制生活方式选择图;(2)评估特定参与者距离最佳健康状态的距离:这项前后队列研究凸显了综合分子图谱对治疗效率进行评分的潜力。我们的研究结果反映了个人背景和生活方式在治疗过程中的复杂相互作用。未来的研究需要从机理上深入了解背痛的发病机制,以及体育疗法干预后基于生活方式的表观遗传学重编程,以长期保持治疗效果。
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