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上运动神经元是基因治疗的靶点,而泛素羧基末端水解酶L1对于改善患病上运动神经元的细胞完整性是必要且充分的。

Upper motor neurons are a target for gene therapy and UCHL1 is necessary and sufficient to improve cellular integrity of diseased upper motor neurons.

作者信息

Genç Barış, Jara Javier H, Sanchez Santana S, Lagrimas Amiko K B, Gözütok Öge, Koçak Nuran, Zhu Yongling, Hande Özdinler P

机构信息

Davee Department of Neurology and Clinical Neurological Sciences, Northwestern University, Feinberg School of Medicine, Chicago, IL, 60611, USA.

Departments of Ophthalmology and Physiology, Feinberg School of Medicine, Northwestern University, Chicago, IL, 60611, USA.

出版信息

Gene Ther. 2022 Apr;29(3-4):178-192. doi: 10.1038/s41434-021-00303-4. Epub 2021 Dec 2.

DOI:10.1038/s41434-021-00303-4
PMID:34853443
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9018479/
Abstract

There are no effective cures for upper motor neuron (UMN) diseases, such as amyotrophic lateral sclerosis (ALS), primary lateral sclerosis, and hereditary spastic paraplegia. Here, we show UMN loss occurs independent of spinal motor neuron degeneration and that UMNs are indeed effective cellular targets for gene therapy, which offers a potential solution especially for UMN disease patients. UCHL1 (ubiquitin C-terminal hydrolase-L1) is a deubiquitinating enzyme crucial for maintaining free ubiquitin levels. Corticospinal motor neurons (CSMN, a.k.a UMNs in mice) show early, selective, and profound degeneration in Uchl1 (UCHL1) mice, which lack all UCHL1 function. When UCHL1 activity is ablated only from spinal motor neurons, CSMN remained intact. However, restoring UCHL1 specifically in CSMN of UCHL1 mice via directed gene delivery was sufficient to improve CSMN integrity to the healthy control levels. In addition, when UCHL1 gene was delivered selectively to CSMN that are diseased due to misfolded SOD1 toxicity and TDP-43 pathology via AAV-mediated retrograde transduction, the disease causing misfolded SOD1 and mutant human TDP-43 were reduced in hSOD1 and prpTDP-43 models, respectively. Diseased CSMN retained their neuronal integrity and cytoarchitectural stability in two different mouse models that represent two distinct causes of neurodegeneration in ALS.

摘要

对于诸如肌萎缩侧索硬化症(ALS)、原发性侧索硬化症和遗传性痉挛性截瘫等上运动神经元(UMN)疾病,目前尚无有效的治疗方法。在此,我们表明UMN的丧失独立于脊髓运动神经元的退化发生,并且UMN确实是基因治疗的有效细胞靶点,这为UMN疾病患者提供了一种潜在的解决方案。泛素羧基末端水解酶-L1(UCHL1)是一种对于维持游离泛素水平至关重要的去泛素化酶。皮质脊髓运动神经元(CSMN,在小鼠中也称为UMN)在缺乏所有UCHL1功能的Uchl1(UCHL1)小鼠中表现出早期、选择性和严重的退化。当仅从脊髓运动神经元中消除UCHL1活性时,CSMN保持完整。然而,通过定向基因传递在UCHL1小鼠的CSMN中特异性恢复UCHL1足以将CSMN的完整性提高到健康对照水平。此外,当通过AAV介导的逆行转导将UCHL1基因选择性地传递到因错误折叠的SOD1毒性和TDP-43病理而患病的CSMN时,在hSOD1和prpTDP-43模型中,分别减少了导致疾病的错误折叠的SOD1和突变型人TDP-43。在代表ALS中两种不同神经退行性变原因的两种不同小鼠模型中,患病的CSMN保持了它们的神经元完整性和细胞结构稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fd1/9018479/7f5d4deb2c79/nihms-1751670-f0009.jpg
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