From the Tanz Centre for Research in Neurodegenerative Diseases (C.A., I.M.-V., A.V., S.T., M.H., F.T., C. Sato, D.M., C.J.A., K.M., A.E.L., E.R., G.G.K., M.C.T.); Krembil Brain Institute (I.M.-V., A.M.-R., B.C., D.F.T.-W., A.E.L., S.H.F., G.G.K., M.C.T.); The Edmond J. Safra Program in Parkinson's Disease and Morton and Gloria Shulman Movement Disorders Clinic (I.M.-V., A.M.-R., B.C., A.E.L., S.H.F., G.G.K., M.C.T.); Rossy Progressive Supranuclear Palsy Centre (I.M.-V., A.M.-R., A.E.L., G.G.K., M.C.T.), University Health Network and the University of Toronto; and University Health Network Memory Clinic (D.M.-F., C. Salvo, D.F.T.-W.), Toronto, Ontario, Canada.
Neurology. 2024 Sep 24;103(6):e209818. doi: 10.1212/WNL.0000000000209818. Epub 2024 Aug 29.
There is no disease-modifying treatment of corticobasal syndrome (CBS) and progressive supranuclear palsy (PSP), 2 disorders characterized by their striking phenotypic, and, in CBS, pathologic heterogeneity. Seed amplification assays (SAAs) could enable the detection of neuropathologic processes, such as α-synuclein (αSyn) copathology, that affect the success of future disease-modifying treatment strategies. The primary objective was to assess possible αSyn copathology in CBS and PSP, as detected in CSF using an αSyn SAA (αSyn-SAA). Secondary objectives were to evaluate the association of αSyn-SAA positivity with other biomarkers including of Alzheimer disease (AD), and with clinical presentation. We hypothesized that αSyn-SAA positivity would be detectable in CBS and PSP and that it would be associated with AD biomarker positivity and β-amyloid (Aβ) 42 levels, neurodegeneration as assessed by neurofilament light chain (NfL) levels, and symptoms associated with synucleinopathies.
This cross-sectional observational study included patients clinically diagnosed with CBS and PSP who underwent a lumbar puncture between 2012 and 2021 (Toronto Western Hospital, Canada). CSF was tested for αSyn-SAA positivity, AD biomarkers, and NfL levels. Clinical data were derived from medical records.
We tested the CSF of 40 patients with CBS (19 female patients, 65.9 ± 8.6 years) and 28 with PSP (13 female patients, 72.5 ± 8.7 years old), mostly White (n = 50) or Asian (n = 14). αSyn-SAA positivity was observed in 35.9% patients with CBS and 28.6% with PSP. In young-onset, but not late-onset patients, αSyn-SAA positivity and AD positivity were associated (odds ratio [OR] 8.8, 95% CI 1.2-82.6, < 0.05). A multivariable linear regression analysis showed a significant interaction of αSyn-SAA status by age at onset on CSF Aβ42 levels (β = 0.3 ± 0.1, < 0.05). Indeed, age at onset was positively related to Aβ42 levels only in αSyn-SAA-positive patients, as shown by slope comparison. A logistic regression analysis also suggested that REM sleep behavior disorder was associated with αSyn-SAA positivity (OR 60.2, 95% CI 5.2-1,965.8; < 0.01).
We detected a frequency of αSyn-SAA positivity in CBS and PSP in line with pathologic studies, highlighting the usefulness of SAAs for in vivo detection of otherwise undetectable neuropathologic processes. Our results also suggest that AD status (specifically low Aβ42) and older age at onset may contribute to αSyn-SAA positivity. This opens new perspectives for the stratification of patients in clinical trials.
皮质基底节综合征(CBS)和进行性核上性麻痹(PSP)这两种疾病均无确切的治疗方法,其特征为临床表现和病理表现存在显著差异。种子扩增检测(SAA)可用于检测神经病理学过程,如α-突触核蛋白(αSyn)共病,这可能会影响未来疾病修饰治疗策略的效果。主要目的是评估 CBS 和 PSP 患者脑脊液中的αSyn 共病,方法是使用αSyn SAA(αSyn-SAA)进行检测。次要目的是评估αSyn-SAA 阳性与其他生物标志物(包括阿尔茨海默病(AD)相关生物标志物)的相关性,以及与临床特征的相关性。我们假设αSyn-SAA 可在 CBS 和 PSP 患者中被检测到,且与 AD 生物标志物阳性和β-淀粉样蛋白(Aβ)42 水平、神经丝轻链(NfL)水平评估的神经退行性变以及与突触核蛋白病相关的症状有关。
本横断面观察性研究纳入了 2012 年至 2021 年间在加拿大西部医院接受腰椎穿刺的临床诊断为 CBS 和 PSP 的患者。对 CSF 进行αSyn-SAA 阳性、AD 生物标志物和 NfL 水平检测。临床数据来自病历。
我们共检测了 40 名 CBS 患者(19 名女性,65.9±8.6 岁)和 28 名 PSP 患者(13 名女性,72.5±8.7 岁)的 CSF,大多数为白种人(n=50)或亚洲人(n=14)。35.9%的 CBS 患者和 28.6%的 PSP 患者αSyn-SAA 阳性。在早发性而非晚发性患者中,αSyn-SAA 阳性与 AD 阳性有关(比值比[OR] 8.8,95%CI 1.2-82.6,<0.05)。多变量线性回归分析显示,αSyn-SAA 状态与发病年龄对 CSF Aβ42 水平的交互作用有统计学意义(β=0.3±0.1,<0.05)。实际上,只有在αSyn-SAA 阳性患者中,发病年龄才与 Aβ42 水平呈正相关,这可以通过斜率比较得出。逻辑回归分析还表明,快速眼动睡眠行为障碍与αSyn-SAA 阳性有关(OR 60.2,95%CI 5.2-1,965.8;<0.01)。
我们在 CBS 和 PSP 患者中检测到的αSyn-SAA 阳性频率与病理研究一致,突出了 SAA 用于体内检测其他无法检测到的神经病理学过程的有用性。我们的结果还表明,AD 状态(特别是 Aβ42 水平低)和发病年龄较大可能导致αSyn-SAA 阳性。这为临床试验中的患者分层开辟了新的前景。
