Relative persistence of AAV serotype 1 vector genomes in dystrophic muscle.

Christina A Pacak, Thomas Conlon, Cathryn S Mah, Barry J Byrne
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引用次数: 109

Abstract

The purpose of this study was to assess the behavior of pseudotyped recombinant adeno-associated virus type 1 (rAAV2/1) vector genomes in dystrophic skeletal muscle. A comparison was made between a therapeutic vector and a reporter vector by injecting the hindlimb in a mouse model of Limb Girdle Muscular Dystrophy Type 2D (LGMD-2D) prior to disease onset. We hypothesized that the therapeutic vector would establish long-term persistence through prevention of myofiber turnover. In contrast, the reporter vector genome copy number would diminish over time due to disease-associated muscle degradation. One day old alpha sarcoglycan knockout mice (sgca-/-) were injected with 1 x 10(11) vector genomes of rAAV2/1-tMCK-sgca in one hindlimb and the same dose of rAAV2/1-tMCK-LacZ in the contra lateral hindlimb. Newborn mice are tolerant of the foreign transgene allowing for long-term expression of both the marker and the therapeutic gene in the null background. At 2 time-points following vector administration, hindlimb muscles were harvested and analyzed for LacZ or sarcoglycan expression. Our data demonstrate prolonged vector genome persistence in skeletal muscle from the hindlimbs injected with the therapeutic transgene as compared to hindlimbs injected with the reporter gene. We observed loss of vector genomes in skeletal muscles that were there were not protected by the benefits of therapeutic gene transfer. In comparison, the therapeutic vector expressing sarcoglycan led to reduction or elimination of myofiber loss. Mitigating the membrane instability inherent in dystrophic muscle was able to prolong the life of individual myofibers.

Abstract Image

AAV血清1型载体基因组在营养不良肌肉中的相对持久性。
本研究的目的是评估假型重组腺相关病毒1型(rAAV2/1)载体基因组在营养不良骨骼肌中的行为。在发病前将治疗性载体与报告性载体注射于2D型肢带性肌营养不良症(LGMD-2D)小鼠后肢进行比较。我们假设治疗载体可以通过预防肌纤维周转来建立长期的持久性。相反,由于疾病相关的肌肉退化,报告载体基因组拷贝数会随着时间的推移而减少。在1日龄α -肌聚糖敲除小鼠(sgca-/-)的一只后肢注射1 × 10(11)个rAAV2/1-tMCK-sgca载体基因组,在对侧后肢注射相同剂量的rAAV2/1-tMCK-LacZ。新生小鼠对外源转基因具有耐受性,允许在零背景下长期表达标记基因和治疗基因。在给药载体后的2个时间点,采集后肢肌肉并分析LacZ或肌聚糖的表达。我们的数据表明,与注射了报告基因的后肢相比,注射了治疗性转基因的后肢骨骼肌中的载体基因组持久性更长。我们观察到骨骼肌中没有受到治疗性基因转移益处保护的载体基因组的丢失。相比之下,表达肌聚糖的治疗载体可减少或消除肌纤维损失。减轻营养不良肌肉固有的膜不稳定性能够延长单个肌纤维的寿命。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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