Institute of Infection, Immunity and Inflammation, University of Glasgow, Glasgow, UK.
J Clin Invest. 2012 Mar;122(3):1037-51. doi: 10.1172/JCI59110. Epub 2012 Feb 6.
In the Guillain-Barré syndrome subform acute motor axonal neuropathy (AMAN), Campylobacter jejuni enteritis triggers the production of anti-ganglioside Abs (AGAbs), leading to immune-mediated injury of distal motor nerves. An important question has been whether injury to the presynaptic neuron at the neuromuscular junction is a major factor in AMAN. Although disease modeling in mice exposed to AGAbs indicates that complement-mediated necrosis occurs extensively in the presynaptic axons, evidence in humans is more limited, in comparison to the extensive injury seen at nodes of Ranvier. We considered that rapid AGAb uptake at the motor nerve terminal membrane might attenuate complement-mediated injury. We found that PC12 rat neuronal cells rapidly internalized AGAb, which were trafficked to recycling endosomes and lysosomes. Consequently, complement-mediated cytotoxicity was attenuated. Importantly, we observed the same AGAb endocytosis and protection from cytotoxicity in live mouse nerve terminals. AGAb uptake was attenuated following membrane cholesterol depletion in vitro and ex vivo, indicating that this process may be dependent upon cholesterol-enriched microdomains. In contrast, we observed minimal AGAb uptake at nodes of Ranvier, and this structure thus remained vulnerable to complement-mediated injury. These results indicate that differential endocytic processing of AGAbs by different neuronal and glial membranes might be an important modulator of site-specific injury in acute AGAb-mediated Guillain-Barré syndrome subforms and their chronic counterparts.
在吉兰-巴雷综合征亚型急性运动轴索性神经病(AMAN)中,空肠弯曲菌肠炎引发抗神经节苷脂抗体(AGAbs)的产生,导致远端运动神经的免疫介导损伤。一个重要的问题是,运动神经元突触前神经元的损伤是否是 AMAN 的一个主要因素。尽管暴露于 AGAbs 的小鼠疾病模型表明补体介导的坏死广泛发生在突触前轴突中,但与Ranvier 结处广泛的损伤相比,人类的证据更为有限。我们认为,AGAb 在运动神经末梢膜上的快速摄取可能会减轻补体介导的损伤。我们发现 PC12 大鼠神经元细胞迅速内化了 AGAb,AGAb 被转运到再循环内体和溶酶体。因此,补体介导的细胞毒性被减弱。重要的是,我们在活体小鼠神经末梢中观察到了相同的 AGAb 内吞作用和对细胞毒性的保护作用。AGAb 摄取在体外和离体实验中通过膜胆固醇耗竭而减弱,表明该过程可能依赖于富含胆固醇的微区。相比之下,我们在 Ranvier 结处观察到很少的 AGAb 摄取,因此该结构仍然容易受到补体介导的损伤。这些结果表明,不同神经元和神经胶质细胞膜对 AGAbs 的不同内吞处理可能是急性 AGAb 介导的吉兰-巴雷综合征亚型及其慢性对应物中特定部位损伤的重要调节剂。