Reduction in hSOD1 copy number significantly impacts ALS phenotype presentation in G37R (line 29) mice: implications for the assessment of putative therapeutic agents.

Pierre Zwiegers, Grace Lee, Christopher A Shaw
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引用次数: 16

Abstract

Background: In vivo animal models of familial amyotrophic lateral sclerosis (fALS) are widely used to delineate the potential role that genetic mutations play in the neurodegenerative process. While these models are extensively used for establishing the safety and efficacy of putative therapeutics during pre-clinical development, effective clinical translation of pharmacological interventions has been largely unsuccessful.

Results: In this report we compare a recent cohort of G37R (line 29) mice generated from mating wild-type females with transgenic males obtained commercially to a previous set of offspring produced with transgenic male breeders from a colony established at a local collaborator's facility. Commercially derived progeny presented with a tightly clustered genomic signature for the mutant human superoxide dismutase1 transgene (hSOD1) locus, and exhibited a greater than two-fold reduction in the number of transgene copies present in the genome compared to offspring derived locally. Decrease in transgene levels corresponded with delayed ALS progression and a significant increase in overall lifespan (146%).

Conclusions: These results highlight some key challenges inherent to the use of G37R (line 29) animals in pre-clinical studies for the development of ALS therapeutics. Without stringent assessment of mutant SOD1 copy number/protein levels, heterogeneity of transgene levels within cohorts may influence the behavioural and pathological presentation of disease and thus calls to question the validity of any detected therapeutic effects. Nuanced changes in mutant SOD1 copy number that currently remain unreported may undermine research endeavours, delay efforts for clinical translation, and compromise the rigor of animal studies by limiting reproducibility amongst research groups.

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hSOD1拷贝数的减少显著影响G37R(29号线)小鼠的ALS表型表现:对推定治疗剂评估的影响。
背景:家族性肌萎缩性侧索硬化症(fALS)的体内动物模型被广泛用于描述基因突变在神经退行性过程中发挥的潜在作用。虽然这些模型在临床前开发期间广泛用于确定假定治疗方法的安全性和有效性,但药理干预措施的有效临床转化在很大程度上是不成功的。结果:在本报告中,我们比较了最近一组由野生型雌性与商业获得的转基因雄性交配产生的G37R(29系)小鼠与先前在当地合作机构建立的一个群体中由转基因雄性繁殖者产生的后代。商业衍生的后代具有突变的人类超氧化物歧化酶1转基因(hSOD1)位点的紧密聚集的基因组特征,并且与本地衍生的后代相比,在基因组中存在的转基因拷贝数减少了两倍以上。转基因水平的降低与ALS进展的延迟和总寿命的显著增加相对应(146%)。结论:这些结果突出了在临床前研究中使用G37R(29号线)动物来开发ALS治疗方法所固有的一些关键挑战。如果没有对SOD1突变拷贝数/蛋白水平进行严格的评估,队列中转基因水平的异质性可能会影响疾病的行为和病理表现,因此对任何检测到的治疗效果的有效性提出质疑。目前尚未报道的SOD1突变体拷贝数的细微变化可能会破坏研究成果,延迟临床翻译的努力,并通过限制研究小组之间的可重复性而损害动物研究的严谨性。
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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