In vivo neural regeneration via AAV-NeuroD1 gene delivery to astrocytes in neonatal hypoxic-ischemic brain injury.

Miri Kim, Seokmin Oh, Songyeon Kim, Il-Sun Kim, Joowon Kim, Jungho Han, Ji Woong Ahn, Seungsoo Chung, Jae-Hyung Jang, Jeong Eun Shin, Kook In Park
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Abstract

Background: Neonatal hypoxic-ischemic brain injury (HIBI) is a significant contributor to neonatal mortality and long-term neurodevelopmental disability, characterized by massive neuronal loss and reactive astrogliosis. Current therapeutic approaches for neonatal HIBI have been limited to general supportive therapy because of the lack of methods to compensate for irreversible neuronal loss. This study aimed to establish a feasible regenerative therapy for neonatal HIBI utilizing in vivo direct neuronal reprogramming technology.

Methods: Neonatal HIBI was induced in ICR mice at postnatal day 7 by permanent right common carotid artery occlusion and exposure to hypoxia with 8% oxygen and 92% nitrogen for 90 min. Three days after the injury, NeuroD1 was delivered to reactive astrocytes of the injury site using the astrocyte-tropic adeno-associated viral (AAV) vector AAVShH19. AAVShH19 was engineered with the Cre-FLEX system for long-term tracking of infected cells.

Results: AAVShH19-mediated ectopic NeuroD1 expression effectively converted astrocytes into GABAergic neurons, and the converted cells exhibited electrophysiological properties and synaptic transmitters. Additionally, we found that NeuroD1-mediated in vivo direct neuronal reprogramming protected injured host neurons and altered the host environment, i.e., decreased the numbers of activated microglia, reactive astrocytes, and toxic A1-type astrocytes, and decreased the expression of pro-inflammatory factors. Furthermore, NeuroD1-treated mice exhibited significantly improved motor functions.

Conclusions: This study demonstrates that NeuroD1-mediated in vivo direct neuronal reprogramming technology through AAV gene delivery can be a novel regenerative therapy for neonatal HIBI.

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在新生儿缺氧缺血性脑损伤中通过 AAV-NeuroD1 基因传递到星形胶质细胞实现体内神经再生。
背景:新生儿缺氧缺血性脑损伤(HIBI)是导致新生儿死亡和长期神经发育障碍的重要因素,其特点是神经元大量缺失和反应性星形胶质细胞增多。目前对新生儿缺氧性脑损伤的治疗方法仅限于一般的支持疗法,因为缺乏对不可逆的神经元损失进行补偿的方法。本研究旨在利用体内直接神经元重编程技术为新生儿HIBI建立一种可行的再生疗法:方法:在出生后第7天,通过永久性右颈总动脉闭塞和暴露于8%氧气和92%氮气的低氧环境中90分钟,诱导ICR小鼠新生儿HIBI。损伤三天后,使用星形胶质细胞趋向性腺相关病毒(AAV)载体 AAVShH19 将 NeuroD1 运送到损伤部位的反应性星形胶质细胞中。AAVShH19采用了Cre-FLEX系统,用于长期追踪受感染的细胞:结果:AAVShH19介导的异位NeuroD1表达有效地将星形胶质细胞转化为GABA能神经元,转化后的细胞表现出电生理特性和突触递质。此外,我们还发现,NeuroD1 介导的体内神经元直接重编程保护了受伤的宿主神经元,并改变了宿主环境,即减少了活化小胶质细胞、反应性星形胶质细胞和毒性 A1 型星形胶质细胞的数量,并降低了促炎因子的表达。此外,经 NeuroD1 处理的小鼠的运动功能也有明显改善:本研究表明,通过 AAV 基因递送,NeuroD1 介导的体内神经元直接重编程技术可以成为新生儿 HIBI 的一种新型再生疗法。
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