在PMP22过表达的CMT1A小鼠模型中,终末补体系统的全身性抑制可减少神经炎症,但不能改善运动功能

Iliana Michailidou , Jeroen Vreijling , Matthijs Rumpf , Maarten Loos , Bastijn Koopmans , Nina Vlek , Nina Straat , Cedrick Agaser , Thomas B. Kuipers , Hailiang Mei , Frank Baas , Kees Fluiter
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摘要

Charcot-Marie Tooth病1A型(CMT1A)是最常见的遗传性脱髓鞘神经病变。这种常染色体显性遗传疾病是由染色体17p上的重复引起的,该染色体包括外周髓磷脂蛋白22(PMP22)基因。有临床证据表明,CMT1A的残疾在很大程度上是由于轴突损伤而不是脱髓鞘。PMP22的过度表达最近被认为会阻碍胆固醇运输,导致雪旺细胞中局部胆固醇和脂质合成完全停止,从而干扰其髓鞘再形成的能力。但具有相同基因缺陷的CMT1A患者之间的疾病负担存在很大差异,这表明存在影响疾病严重程度的改变因素。其中一个潜在因素是免疫系统。一些报道描述了CMT1A与慢性炎症性脱髓鞘疾病或格林-巴利综合征共存的患者。我们之前在多种动物模型中表明,先天免疫系统,特别是末端补体系统是炎症脱髓鞘的驱动因素。为了测试末端补体系统对CMT1A的神经炎症和疾病进展的贡献,我们在两个CMT1A转基因小鼠模型C3-PMP22和C3-PMP22c-JunP0Cre模型中抑制了系统性补体C6。两个模型都过度表达人PMP22,其中一个模型(C3-PMP22 c-JunP0Cre)也具有c-Jun的施旺细胞特异性敲除,c-Jun是髓鞘形成控制自噬的关键调节因子。我们发现,在CMT1A小鼠模型中,使用反义寡核苷酸对C6的系统性抑制影响神经炎症、Rho-GTPase和ERK/MAPK信号通路。胆固醇合成途径未受影响。在用C6反义寡核苷酸治疗期间对运动功能的分析没有揭示CMT1A小鼠模型中的任何显著改善。这项研究表明,在测试的CMT1A小鼠模型中,末端补体系统对运动功能逐渐丧失的贡献是有限的。
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The systemic inhibition of the terminal complement system reduces neuroinflammation but does not improve motor function in mouse models of CMT1A with overexpressed PMP22

Charcot-Marie-Tooth disease type 1A (CMT1A) is the most prevalent hereditary demyelinating neuropathy. This autosomal, dominantly inherited disease is caused by a duplication on chromosome 17p which includes the peripheral myelin protein 22 (PMP22) gene. There is clinical evidence that the disability in CMT1A is to a large extend due to axonal damage rather than demyelination. Over-expression of PMP22 is recently thought to impede cholesterol trafficking causing a total shutdown of local cholesterol and lipid synthesis in the Schwann cells, thus disturbing their ability to remyelinate. But there is a large variety in disease burden between CMT1A patients with the same genetic defect, indicating the presence of modifying factors that affect disease severity. One of these potential factors is the immune system. Several reports have described patients with co-occurrence of CMT1A with chronic inflammatory demyelinating disease or Guillain-Barré syndrome. We have previously shown in multiple animal models that the innate immune system and specifically the terminal complement system is a driver of inflammatory demyelination. To test the contribution of the terminal complement system to neuroinflammation and disease progression in CMT1A, we inhibited systemic complement C6 in two transgenic mouse models for CMT1A, the C3-PMP22 and C3-PMP22 c-JunP0Cre models. Both models over-express human PMP22, and one (C3-PMP22 c-JunP0Cre) also has a Schwann cell-specific knockout of c-Jun, a crucial regulator of myelination controlling autophagy. We found that systemic inhibition of C6 using antisense oligonucleotides affects the neuroinflammation, Rho GTPase and ERK/MAPK signalling pathways in the CMT1A mouse models. The cholesterol synthesis pathway remained unaffected. Analysis of motor function during treatment with C6 antisense oligonucleotides did not reveal any significant improvement in the CMT1A mouse models. This study shows that the contribution of the terminal complement system to progressive loss of motor function in the CMT1A mouse models tested is limited.

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