Post-mortem neuropathology of idiopathic rapid eye movement sleep behaviour disorder: a case series

Gerard Mayà, Alex Iranzo, Carles Gaig, Raquel Sánchez-Valle, Monica Serradell, Laura Molina-Porcel, Joan Santamaria, Ellen Gelpi, Iban Aldecoa
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Abstract

Background

Idiopathic rapid eye movement (REM) sleep behaviour disorder (IRBD) is thought to be an early stage of α-synuclein-related neurodegenerative diseases. Nevertheless, the definitive identification of its biological substrate can be determined only by post-mortem neuropathology. We aimed to describe the post-mortem neuropathology of individuals with IRBD who developed or did not develop a neurodegenerative disease before death.

Methods

In this case series at the Hospital Clinic de Barcelona, Barcelona, Spain, we examined post-mortem brain tissue and spinal cords from individuals diagnosed with IRBD by video polysomnography who became donors to the Neurological Tissue Bank between May 28, 2005, and March 23, 2023. We performed post-mortem neuropathology to assess the presence and distribution of neuronal loss, gliosis, and protein aggregates using antibodies against α-synuclein, amyloid β, phosphorylated tau, three-repeat and four-repeat tau isoforms, and TDP-43. Comparative statistical analyses were not done because of the small sample size, but differences observed across the nuclei and brain structures were described.

Findings

The brains and spinal cords of 20 individuals with IRBD were examined (19 [95%] men, one [5%] woman). Their clinical antemortem diagnoses were of IRBD without any other neurological disorder in three (15%), Parkinson's disease without dementia in two (10%), Parkinson's disease dementia (PDD) in three (15%), and dementia with Lewy bodies (DLB) in 12 (60%) individuals. Post-mortem neuropathological diagnoses were Lewy body disease in 19 (95%) and multiple system atrophy (MSA) in one (5%). All participants with Lewy body disease and MSA showed neuronal loss, gliosis, and α-synuclein deposits in neurons and astrocytes. In all participants, α-synuclein was found in the structures that regulate REM sleep atonia (eg, subcoeruleus nucleus, gigantocellular reticular nucleus, laterodorsal tegmentum, and amygdala). Coexistent pathologies were found in all participants, including Alzheimer's disease pathology (amyloid β plaques and neurofibrillary tangles) in 14 (70%), ageing-related tau astrogliopathy in 12 (60%), cerebral amyloid angiopathy in 11 (55%), argyrophilic grain disease in four (20%), limbic-predominant age-related TDP-43 encephalopathy in four (20%), and early changes indicative of progressive supranuclear palsy in three (15%). In individuals with IRBD without any other neurological disorder and in those who developed Parkinson's disease without dementia, α-synuclein was found in the brainstem and limbic system and rarely in the cortex, whereas coexisting proteinopathies were few and showed mild pathological burden. In contrast, in individuals who developed PDD or DLB, α-synuclein had diffuse distribution in the brainstem, limbic system, and cortex, and multiple comorbid pathologies were common, particularly those related to Alzheimer's disease.

Interpretation

Although limited by a relatively small sample size, our observations provide strong neuropathological evidence that IRBD is an early stage of α-synuclein-related neurodegenerative disease. Concomitant pathologies are frequent and their role remains to be clarified: some might have contributed to the development of dementia, but some might be age-related changes. Our findings could inform the design of clinical trials of compounds that target specific pathological proteins (eg, α-synuclein and amyloid β) in people with IRBD.

Funding

Fundación BBVA–Hospital Clínic de Barcelona.
特发性快速眼动睡眠行为障碍的死后神经病理学:一个病例系列
背景特发性快速眼动(REM)睡眠行为障碍(IRBD)被认为是α-突触核蛋白相关神经退行性疾病的早期阶段。然而,只有通过死后神经病理学才能确定其生物基质。方法在西班牙巴塞罗那巴塞罗那医院(Hospital Clinic de Barcelona,Barcelona)的这一病例系列中,我们检查了2005年5月28日至2023年3月23日期间通过视频多导睡眠图诊断出患有IRBD并成为神经组织库捐赠者的患者的死后脑组织和脊髓。我们使用针对α-突触核蛋白、淀粉样蛋白β、磷酸化tau、三重复和四重复tau异构体以及TDP-43的抗体进行了死后神经病理学检查,以评估神经元缺失、胶质细胞病变和蛋白质聚集的存在和分布情况。由于样本量较小,因此没有进行比较统计分析,但描述了观察到的各核团和大脑结构之间的差异。研究结果对20名IRBD患者(19名[95%]男性,1名[5%]女性)的大脑和脊髓进行了检查。他们的临床尸检诊断结果分别是:3 人(15%)患有 IRBD,但没有其他神经系统疾病;2 人(10%)患有帕金森病,但没有痴呆症;3 人(15%)患有帕金森病痴呆症(PDD);12 人(60%)患有路易体痴呆症(DLB)。死后神经病理学诊断为路易体病的有 19 人(95%),多系统萎缩(MSA)的有 1 人(5%)。所有路易体病和多系统萎缩症患者的神经元和星形胶质细胞均出现神经元缺失、胶质细胞增生和α-突触核蛋白沉积。在所有参与者中,α-突触核蛋白都出现在调节快速眼动睡眠失张力的结构中(如小脑下核、巨网状核、背侧被盖体和杏仁核)。在所有参与者中都发现了并存病变,其中 14 人(70%)患有阿尔茨海默病(淀粉样 β 斑块和神经纤维缠结),12 人(60%)患有与老化相关的 tau 星形胶质细胞病变、11人(55%)患有脑淀粉样血管病,4人(20%)患有霰粒肿,4人(20%)患有以边缘为主的与年龄相关的TDP-43脑病,3人(15%)患有显示进行性核上麻痹的早期病变。在没有任何其他神经系统疾病的IRBD患者和发展为帕金森病但没有痴呆的患者中,α-突触核蛋白出现在脑干和边缘系统,很少出现在大脑皮层,而共存的蛋白病很少,病理负担轻微。与此相反,在出现 PDD 或 DLB 的患者中,α-突触核蛋白弥漫分布于脑干、边缘系统和皮层,多种并发病症很常见,尤其是与阿尔茨海默病相关的病症。伴随的病理变化很常见,其作用仍有待明确:有些可能是痴呆症发展的原因,但有些可能是与年龄有关的变化。我们的研究结果可为针对IRBD患者的特定病理蛋白(如α-突触核蛋白和淀粉样β)的化合物临床试验设计提供参考。
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