Ying Chao, Han Chao, Li Yuan, Zhang Mingkai, Xiao Shuying, Zhao Lifang, Zhang Hui, Yu Qian, An Jing, Mao Wei, Cai Yanning
Department of Neurobiology, Xuanwu Hospital, Capital Medical University, Beijing, China.
Beijing Municipal Geriatric Medical Research Center, Beijing, China.
Neural Regen Res. 2025 Dec 1;20(12):3553-3563. doi: 10.4103/NRR.NRR-D-24-00599. Epub 2024 Dec 7.
JOURNAL/nrgr/04.03/01300535-202512000-00025/figure1/v/2025-01-31T122243Z/r/image-tiff In clinical specialties focusing on neurological disorders, there is a need for comprehensive and integrated non-invasive, sensitive, and specific testing methods. Both Parkinson's disease and multiple system atrophy are classified as α-synucleinopathies, characterized by abnormal accumulation of α-synuclein protein, which provides a shared pathological background for their comparative study. In addition, both Parkinson's disease and multiple system atrophy involve neuronal death, a process that may release circulating cell-free DNA (cfDNA) into the bloodstream, leading to specific alterations. This premise formed the basis for investigating cell-free DNA as a potential biomarker. Cell-free DNA has garnered attention for its potential pathological significance, yet its characteristics in the context of Parkinson's disease and multiple system atrophy are not fully understood. This study investigated the total concentration, nonapoptotic level, integrity, and cell-free DNA relative telomere length of cell-free DNA in the peripheral blood of 171 participants, comprising 76 normal controls, 62 patients with Parkinson's disease, and 33 patients with multiple system atrophy. In our cohort, 75.8% of patients with Parkinson's disease (stage 1-2 of Hoehn & Yahr) and 60.6% of patients with multiple system atrophy (disease duration less than 3 years) were in the early stages. The diagnostic potential of the cell-free DNA parameters was evaluated using receiver operating characteristic (ROC) analysis, and their association with disease prevalence was examined through logistic regression models, adjusting for confounders such as age, sex, body mass index, and education level. The results showed that cell-free DNA integrity was significantly elevated in both Parkinson's disease and multiple system atrophy patients compared with normal controls ( P < 0.001 for both groups), whereas cell-free DNA relative telomere length was markedly shorter ( P = 0.003 for Parkinson's disease and P = 0.010 for multiple system atrophy). Receiver operating characteristic analysis indicated that both cell-free DNA integrity and cell-free DNA relative telomere length possessed good diagnostic accuracy for differentiating Parkinson's disease and multiple system atrophy from normal controls. Specifically, higher cell-free DNA integrity was associated with increased risk of Parkinson's disease (odds ratio [OR]: 5.72; 95% confidence interval [CI]: 1.54-24.19) and multiple system atrophy (OR: 10.10; 95% CI: 1.55-122.98). Conversely, longer cell-free DNA relative telomere length was linked to reduced risk of Parkinson's disease (OR: 0.16; 95% CI: 0.04-0.54) and multiple system atrophy (OR: 0.10; 95% CI: 0.01-0.57). These findings suggest that cell-free DNA integrity and cell-free DNA relative telomere length may serve as promising biomarkers for the early diagnosis of Parkinson's disease and multiple system atrophy, potentially reflecting specific underlying pathophysiological processes of these neurodegenerative disorders.
《期刊》/nrgr/04.03/01300535 - 202512000 - 00025/图1/v/2025 - 01 - 31T122243Z/r/图像 - tiff 在专注于神经疾病的临床专科中,需要全面且综合的非侵入性、敏感且特异的检测方法。帕金森病和多系统萎缩都归类为α - 突触核蛋白病,其特征是α - 突触核蛋白的异常积累,这为它们的比较研究提供了共同的病理背景。此外,帕金森病和多系统萎缩都涉及神经元死亡,这一过程可能会将循环游离DNA(cfDNA)释放到血液中,导致特定改变。这一前提构成了将游离DNA作为潜在生物标志物进行研究的基础。游离DNA因其潜在的病理意义而受到关注,但其在帕金森病和多系统萎缩背景下的特征尚未完全了解。本研究调查了171名参与者外周血中游离DNA的总浓度、非凋亡水平、完整性以及游离DNA相对端粒长度,其中包括76名正常对照、62名帕金森病患者和33名多系统萎缩患者。在我们的队列中,75.8%的帕金森病患者(Hoehn & Yahr分期1 - 2期)和60.6%的多系统萎缩患者(病程小于3年)处于疾病早期。使用受试者工作特征(ROC)分析评估游离DNA参数的诊断潜力,并通过逻辑回归模型检验它们与疾病患病率的关联,同时对年龄、性别、体重指数和教育水平等混杂因素进行校正。结果显示,与正常对照相比,帕金森病和多系统萎缩患者的游离DNA完整性均显著升高(两组均P < 0.001),而游离DNA相对端粒长度明显缩短(帕金森病P = 0.003,多系统萎缩P = 0.010)。受试者工作特征分析表明,游离DNA完整性和游离DNA相对端粒长度在区分帕金森病和多系统萎缩与正常对照方面均具有良好诊断准确性。具体而言,较高的游离DNA完整性与帕金森病风险增加相关(比值比[OR]:5.72;95%置信区间[CI]:1.54 - 24.19)以及多系统萎缩风险增加相关(OR:10.10;95% CI:1.55 - 122.98)。相反,较长的游离DNA相对端粒长度与帕金森病风险降低相关(OR:0.16;95% CI:0.04 - 0.54)以及多系统萎缩风险降低相关(OR:0.10;95% CI:0.01 - 0.57)。这些发现表明,游离DNA完整性和游离DNA相对端粒长度可能作为帕金森病和多系统萎缩早期诊断的有前景的生物标志物,可能反映这些神经退行性疾病特定的潜在病理生理过程。
