AAV1.tMCK.NT-3 gene therapy improves phenotype in Sh3tc2-/- mouse model of Charcot-Marie-Tooth Type 4C.

IF 4.1 Q1 CLINICAL NEUROLOGY Brain communications Pub Date : 2024-11-06 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae394
Burcak Ozes, Lingying Tong, Kyle Moss, Morgan Myers, Lilye Morrison, Zayed Attia, Zarife Sahenk
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Abstract

Charcot-Marie-Tooth Type 4C (CMT4C) is associated with mutations in the SH3 domain and tetratricopeptide repeats 2 (SH3TC2) gene, primarily expressed in Schwann cells (SCs). Neurotrophin-3 (NT-3) is an important autocrine factor for SC survival and differentiation, and it stimulates neurite outgrowth and myelination. In this study, scAAV1.tMCK.NT-3 was delivered intramuscularly to 4-week-old Sh3tc2-/- mice, a model for CMT4C, and treatment efficacy was assessed at 6-month post-gene delivery. Efficient transgene production was verified with the detection of NT-3 in serum from the treated cohort. NT-3 gene therapy improved functional and electrophysiological outcomes including rotarod, grip strength and nerve conduction velocity. Qualitative and quantitative histopathological studies showed that hypomyelination of peripheral nerves and denervated status of neuromuscular junctions at lumbrical muscles were also improved in the NT-3-treated mice. Morphometric analysis in mid-sciatic and tibial nerves showed treatment-induced distally prominent regenerative activity in the nerve and an increase in the estimated SC density. This indicates that SC proliferation and differentiation, including the promyelination stage, are normal in the Sh3tc2-/- mice, consistent with the previous findings that Sh3tc2 is not involved in the early stages of myelination. Moreover, in size distribution histograms, the number of myelinated axons within the 3- to 6-µm diameter range increased, suggesting that treatment resulted in continuous radial growth of regenerating axons over time. In conclusion, this study demonstrates the efficacy of AAV1.NT-3 gene therapy in the Sh3tc2-/- mouse model of CMT4C, the most common recessively inherited demyelinating CMT subtype.

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AAV1.tMCK.NT-3 基因疗法可改善 Sh3tc2-/- 4C 型夏科-玛丽-牙病小鼠模型的表型。
夏科-玛丽-牙4C型(CMT4C)与主要在许旺细胞(SC)中表达的SH3结构域和四肽重复序列2(SH3TC2)基因突变有关。神经营养素-3(NT-3)是促进许旺细胞存活和分化的重要自分泌因子,它能刺激神经元的生长和髓鞘化。在这项研究中,scAAV1.tMCK.NT-3被肌肉注射给4周大的Sh3tc2-/-小鼠(CMT4C模型),并在基因注射后6个月评估了治疗效果。通过检测治疗组小鼠血清中的NT-3,验证了转基因的有效产生。NT-3基因疗法改善了小鼠的功能和电生理状况,包括旋转能力、握力和神经传导速度。定性和定量组织病理学研究表明,NT-3 治疗小鼠的外周神经髓鞘化和腰肌神经肌肉接头处的变性状态也得到了改善。对中骶神经和胫神经的形态计量分析表明,治疗诱导的神经远端再生活性突出,估计的SC密度增加。这表明Sh3tc2-/-小鼠的SC增殖和分化(包括髓鞘化初期)是正常的,这与之前Sh3tc2不参与髓鞘化初期的发现一致。此外,在大小分布直方图中,直径在3至6微米范围内的髓鞘化轴突数量有所增加,这表明随着时间的推移,治疗导致了再生轴突的持续径向生长。总之,本研究证明了AAV1.NT-3基因疗法在Sh3tc2-/-小鼠CMT4C模型(最常见的隐性遗传脱髓鞘CMT亚型)中的疗效。
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