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AAV9-层粘连蛋白-αLN 连接蛋白改善 Lama2 相关营养不良症的肌肉和神经病理。

Amelioration of muscle and nerve pathology of Lama2-related dystrophy by AAV9-laminin-αLN linker protein.

出版信息

JCI Insight. 2022 Jul 8;7(13):e158397. doi: 10.1172/jci.insight.158397.

DOI:10.1172/jci.insight.158397
PMID:35639486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9310540/
Abstract

LAMA2 deficiency, resulting from a defective or absent laminin α2 subunit, is a common cause of congenital muscular dystrophy. It is characterized by muscle weakness from myofiber degeneration and neuropathy from Schwann cell amyelination. Previously it was shown that transgenic muscle-specific expression of αLNNd, a laminin γ1-binding linker protein that enables polymerization in defective laminins, selectively ameliorates the muscle abnormality in mouse disease models. Here, adeno-associated virus was used to deliver linker mini-genes to dystrophic dy2J/dy2J mice for expression of αLNNd in muscle, or αLNNdΔG2', a shortened linker, in muscle, nerve, and other tissues. Linker and laminin α2 levels were higher in αLNNdΔG2'-treated mice. Both αLNNd- and αLNNdΔG2'-treated mice exhibited increased forelimb grip strength. Further, αLNNdΔG2'-treated mice achieved hind limb and all-limb grip strength levels approaching those of WT mice as well as ablation of hind limb paresis and contractures. This was accompanied by restoration of sciatic nerve axonal envelopment and myelination. Improvement of muscle histology was evident in the muscle-specific αLNNd-expressing mice but more extensive in the αLNNdΔG2'-expressing mice. The results reveal that an αLN linker mini-gene, driven by a ubiquitous promoter, is superior to muscle-specific delivery because of its higher expression that extends to the peripheral nerve. These studies support a potentially novel approach of somatic gene therapy.

摘要

LAMA2 缺陷是由层粘连蛋白 α2 亚基缺陷或缺失引起的,是先天性肌营养不良的常见原因。其特征是肌纤维变性导致肌肉无力和施万细胞无髓鞘化导致神经病变。先前的研究表明,转基因肌肉特异性表达αLNNd(一种层粘连蛋白 γ1 结合连接蛋白,能够在缺陷层粘连蛋白中聚合)可选择性改善小鼠疾病模型中的肌肉异常。在这里,我们使用腺相关病毒将连接子迷你基因递送到进行性假肥大性肌营养不良症 dy2J/dy2J 小鼠中,以在肌肉中表达αLNNd,或在肌肉、神经和其他组织中表达缩短的连接子αLNNdΔG2'。αLNNdΔG2'-处理的小鼠中连接子和层粘连蛋白α2 水平更高。αLNNd 和αLNNdΔG2'-处理的小鼠的前肢握力均增强。此外,αLNNdΔG2'-处理的小鼠的后肢和所有肢的握力水平接近 WT 小鼠,并且消除了后肢瘫痪和挛缩。这伴随着坐骨神经轴突包绕和髓鞘形成的恢复。肌肉特异性表达αLNNd 的小鼠的肌肉组织学改善明显,但在表达αLNNdΔG2'的小鼠中更为广泛。这些结果表明,由泛组织启动子驱动的αLN 连接子迷你基因由于其较高的表达水平(延伸至周围神经),优于肌肉特异性递送。这些研究支持了一种潜在的新型体基因治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8561/9310540/1473dc44afad/jciinsight-7-158397-g017.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8561/9310540/1473dc44afad/jciinsight-7-158397-g017.jpg
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