AAV2上显示的酸性寡肽可改善全身输送后的轴向肌偏向性。

Genetic Vaccines and Therapy Pub Date : 2012-06-18 DOI:10.1186/1479-0556-10-3

Ni-Chung Lee, Darin J Falk, Barry J Byrne, Thomas J Conlon, Nathalie Clement, Stacy Porvasnik, Marda L Jorgensen, Mark Potter, Kirsten E Erger, Rachael Watson, Steven C Ghivizzani, Hung-Chuan Chiu, Yin-Hsiu Chien, Wuh-Liang Hwu

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引用次数: 5

摘要

背景:当局部注射不可行时，系统注射腺相关病毒(AAV)载体的适当倾向对于成功的基因治疗至关重要。酸性寡肽已被证明能增强药物向骨骼的输送。方法:在AAV2衣壳蛋白587 ~ 588氨基酸残基之间插入6 l天冬氨酸(D6)。129SVE小鼠在出生24小时内通过颞浅静脉注射双链野生型(WT-)或D6-AAV2 mCherry表达载体(每只3.24 × 1010 vg)。结果:荧光显微镜和定量聚合酶链反应证实，注射D6-AAV2的小鼠棘旁肌和臀肌中mCherry的表达水平较高。结果显示，尽管D6-AAV2对永生化细胞的转导效率较低，但通过活体成像，D6-AAV2注射小鼠的脊柱和骨盆上检测到的mCherry信号比wt - aav2注射小鼠强。此外，D6-AAV2也失去了WT-AAV2的肝向性。结论:在AAV2上显示的酸性寡肽改善了全身输送后轴向肌的趋向性，降低了肝脏的趋向性。这种修饰应该有助于创建适合于近端肌肉疾病基因治疗的AAV载体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

An acidic oligopeptide displayed on AAV2 improves axial muscle tropism after systemic delivery.

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An acidic oligopeptide displayed on AAV2 improves axial muscle tropism after systemic delivery.

Background: The appropriate tropism of adeno-associated virus (AAV) vectors that are systemically injected is crucial for successful gene therapy when local injection is not practical. Acidic oligopeptides have been shown to enhance drug delivery to bones.

Methods: In this study six-L aspartic acids (D6) were inserted into the AAV2 capsid protein sequence between amino acid residues 587 and 588. 129SVE mice were injected with double-stranded wild-type- (WT-) or D6-AAV2 mCherry expression vectors (3.24 x 1010 vg per animal) via the superficial temporal vein within 24 hours of birth.

Results: Fluorescence microscopy and quantitative polymerase chain reaction confirmed higher levels of mCherry expression in the paraspinal and gluteus muscles in the D6-AAV2 injected mice. The results revealed that although D6-AAV2 was less efficient in the transduction of immortalized cells stronger mCherry signals were detected over the spine and pelvis by live imaging in the D6-AAV2-injected mice than were detected in the WT-AAV2-injected mice. In addition, D6-AAV2 lost the liver tropism observed for WT-AAV2.

Conclusions: An acidic oligopeptide displayed on AAV2 improves axial muscle tropism and decreases liver tropism after systemic delivery. This modification should be useful in creating AAV vectors that are suitable for gene therapy for diseases involving the proximal muscles.

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Genetic Vaccines and Therapy

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