Department of Laboratory Medicine and Pathology, Mayo Clinic, Rochester, MN.
Department of Neurology, Mayo Clinic, Rochester, MN.
Ann Neurol. 2022 Dec;92(6):1090-1101. doi: 10.1002/ana.26482. Epub 2022 Aug 27.
We sought to determine clinical significance of neuronal septin autoimmunity and evaluate for potential IgG effects.
Septin-IgGs were detected by indirect immunofluorescence assays (IFAs; mouse tissue and cell based) or Western blot. IgG binding to (and internalization of) extracellular septin epitopes were evaluated for by live rat hippocampal neuron assay. The impact of purified patient IgGs on murine cortical neuron function was determined by recording extracellular field potentials in a multielectrode array platform.
Septin-IgGs were identified in 23 patients. All 8 patients with septin-5-IgG detected had cerebellar ataxia, and 7 had prominent eye movement disorders. One of 2 patients with co-existing septin-7-IgG had additional psychiatric phenotype (apathy, emotional blunting, and poor insight). Fifteen patients had septin-7 autoimmunity, without septin-5-IgG detected. Disorders included encephalopathy (11; 2 patients with accompanying myelopathy, and 2 were relapsing), myelopathy (3), and episodic ataxia (1). Psychiatric symptoms (≥1 of agitation, apathy, catatonia, disorganized thinking, and paranoia) were prominent in 6 of 11 patients with encephalopathic symptoms. Eight of 10 patients with data available (from 23 total) improved after immunotherapy, and a further 2 patients improved spontaneously. Staining of plasma membranes of live hippocampal neurons produced by patient IgGs (subclasses 1 and 2) colocalized with pre- and post-synaptic markers. Decreased spiking and bursting behavior in mixed cultures of murine glutamatergic and GABAergic cortical neurons produced by patient IgGs were attributable to neither antigenic crosslinking and internalization nor complement activation.
Septin-IgGs are predictive of distinct treatment-responsive autoimmune central nervous system (CNS) disorders. Live neuron binding and induced electrophysiologic effects by patient IgGs may support septin-specific pathophysiology. ANN NEUROL 2022;92:1090-1101.
我们旨在确定神经元六重螺旋蛋白自身免疫的临床意义,并评估潜在的 IgG 效应。
通过间接免疫荧光分析(IFA;基于小鼠组织和细胞)或 Western blot 检测六重螺旋蛋白-IgG。通过活大鼠海马神经元测定评估 IgG 与细胞外六重螺旋蛋白表位的结合(和内化)。通过多电极阵列平台记录细胞外场电位,确定纯化的患者 IgG 对小鼠皮质神经元功能的影响。
在 23 名患者中鉴定出六重螺旋蛋白-IgG。所有 8 名检测到六重螺旋蛋白-5-IgG 的患者均有小脑共济失调,7 名患者有明显的眼球运动障碍。2 名同时存在六重螺旋蛋白-7-IgG 的患者中,有 1 名出现额外的精神表型(冷漠、情感迟钝和洞察力差)。15 名患者存在六重螺旋蛋白-7 自身免疫,但未检测到六重螺旋蛋白-5-IgG。疾病包括脑病(11 例;2 例伴有脊髓病,2 例为复发性)、脊髓病(3 例)和发作性共济失调(1 例)。伴有精神症状(≥1 例为激越、冷漠、木僵、思维紊乱和偏执)的 11 例脑病患者中有 6 例明显。免疫治疗后,10 名有数据(来自 23 名患者)的患者中有 8 名改善,另有 2 名患者自发改善。患者 IgG(1 类和 2 类)对活海马神经元的质膜染色与突触前和突触后标志物共定位。患者 IgG 产生的混合培养的谷氨酸能和 GABA 能皮质神经元中尖峰和爆发行为减少归因于抗原交联和内化,也不是补体激活。
六重螺旋蛋白-IgG 可预测独特的、有治疗反应的自身免疫性中枢神经系统(CNS)疾病。患者 IgG 的活神经元结合和诱导的电生理效应可能支持六重螺旋蛋白特异性的病理生理学。神经病学年鉴 2022;92:1090-1101.