一只携带W1282X突变的囊性纤维化小鼠可用于研究恢复CFTR功能的药理学和基因编辑疗法。

A W1282X cystic fibrosis mouse allows the study of pharmacological and gene-editing therapeutics to restore CFTR function.

作者信息

Michicich Margaret, Traylor Zachary, McCoy Caitlan, Valerio Dana M, Wilson Alma, Schneider Molly, Davis Sakeena, Barabas Amanda, Mann Rachel J, LePage David F, Jiang Weihong, Drumm Mitchell L, Kelley Thomas J, Conlon Ronald A, Hodges Craig A

机构信息

Department of Genetics and Genome Sciences, Case Western Reserve University, Cleveland, Ohio, United States.

出版信息

J Cyst Fibros. 2025 Jan;24(1):164-174. doi: 10.1016/j.jcf.2024.10.008. Epub 2024 Nov 12.

DOI:10.1016/j.jcf.2024.10.008

PMID:39532588

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11788034/

Abstract

BACKGROUND

People with cystic fibrosis carrying two nonsense alleles lack CFTR-specific treatment. Growing evidence supports the hypothesis that nonsense mutation identity affects therapeutic response, calling for mutation-specific CF models. We describe a novel W1282X mouse model and compare it to an existing G542X mouse.

METHODS

The W1282X mouse was created using CRISPR/Cas9 to edit mouse Cftr. In this model, Cftr transcription was assessed using qRT-PCR and CFTR function was measured in the airway by nasal potential difference and in the intestine by short circuit current. Growth, survival, and intestinal motility were examined as well. Correction of W1282X CFTR was assessed pharmacologically and by gene-editing using a forskolin-induced swelling (FIS) assay in small intestine-derived organoids.

RESULTS

Homozygous W1282X mice demonstrate decreased Cftr mRNA, little to no CFTR function, and reduced survival, growth, and intestinal motility. W1282X organoids treated with various combinations of pharmacologic correctors display a significantly different amount of CFTR function than that of organoids from G542X mice. Successful gene editing of W1282X to wildtype sequence in intestinal organoids was achieved leading to restoration of CFTR function.

CONCLUSIONS

The W1282X mouse model recapitulates common human manifestations of CF similar to other CFTR null mice. Despite the similarities between the congenic W1282X and G542X models, they differ meaningfully in their response to identical pharmacological treatments. This heterogeneity highlights the importance of studying therapeutics across genotypes.

摘要

背景

携带两个无义等位基因的囊性纤维化患者缺乏针对囊性纤维化跨膜传导调节因子（CFTR）的特异性治疗方法。越来越多的证据支持这样一种假说，即无义突变的特性会影响治疗反应，因此需要建立针对特定突变的囊性纤维化模型。我们描述了一种新型的W1282X小鼠模型，并将其与现有的G542X小鼠模型进行比较。

方法

利用CRISPR/Cas9编辑小鼠Cftr基因来创建W1282X小鼠模型。在该模型中，使用定量逆转录聚合酶链反应（qRT-PCR）评估Cftr转录情况，并通过鼻电位差测量气道中CFTR的功能，通过短路电流测量肠道中CFTR的功能。同时还检测了生长、存活和肠道蠕动情况。使用福斯可林诱导肿胀（FIS）试验在小肠来源的类器官中通过药理学方法和基因编辑评估W1282X CFTR的校正情况。

结果

纯合子W1282X小鼠表现出Cftr mRNA减少、CFTR功能几乎丧失或完全丧失，以及存活、生长和肠道蠕动能力下降。用各种药理学校正剂组合处理的W1282X类器官显示出与G542X小鼠类器官明显不同的CFTR功能量。在肠道类器官中成功将W1282X基因编辑为野生型序列，从而恢复了CFTR功能。

结论

W1282X小鼠模型概括了与其他CFTR功能缺失小鼠相似的常见人类囊性纤维化表现。尽管同基因的W1282X和G542X模型之间存在相似性，但它们对相同药理学治疗的反应却有显著差异。这种异质性突出了跨基因型研究治疗方法的重要性。

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