Comparative analysis of two newly established Cre rat lines, NeuN-Cre and Thy1-Cre, for neurological research.

Q1 Health Professions

Animal models and experimental medicine Pub Date : 2025-06-25 DOI:10.1002/ame2.70051

Keru Li, Chenyang Liu, Gefan Wan, Lei Zhang, Rui Fan, Xu Zhang, Yuanlong Su, Jiayue He, Ning Liu, Feifei Guan, Wei Dong, Shan Gao, Weining Kong, Xiaolong Qi, Xiaolin Zhang, Yuanwu Ma

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Abstract

Background: The Cre/loxP system is most popular in mice, but its application in rats has largely lagged far behind. The rat is vital laboratory animal, especially in toxicological and neurological studies. Generating genetic tools to manipulate neurons in rats could benefit neurological research.

Methods: Using the CRISPR/Cas9 system, we inserted a Cre cassette into endogenous Thy1 and NeuN loci. Thy1-Cre rats featured a downstream P2A-linked insertion, while NeuN-Cre was inserted at the transcriptional start site. The Cre activity was assessed by crossing with a Cre reporter (Rosa26^imCherry) rat and through analyzing mCherry expression patterns. The specificity of cell type was further confirmed by immunofluorescence with NeuN antibody. Phenotypic consequences were assessed by crossing with ND1^LSL rats to deplete ND1, followed by monitoring weight/survival and conducting motor function tests.

Results: We generated two neuron-specific rats (Thy1-Cre and NeuN-Cre), which exhibited high neuron-specific Cre expression in brain and spinal cord with minor leakage in other tissues. Thy1-Cre showed minor leakage in spleen, lung and kidney while NeuN-Cre showed minor leakage in spleen and kidney. ND1^Thy1-Cre and ND1^NeuN-Cre rats both showed decreased body weights and survival times. The ND1^NeuN-Cre rats died within two weeks, while ND1^Thy1-Cre rats lived longer with impaired motor function.

Conclusions: We successfully generated two neuron-specific NeuN-Cre and Thy1-Cre rats, and systemically analyzed their expression pattern.

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神经学研究中新建立的两种Cre大鼠系NeuN-Cre和Thy1-Cre的比较分析。

背景：Cre/loxP系统在小鼠中最为流行，但在大鼠中的应用还远远落后。大鼠是重要的实验动物，特别是在毒理学和神经学研究中。产生基因工具来操纵大鼠的神经元可能有利于神经学研究。方法：利用CRISPR/Cas9系统，将Cre盒插入内源性Thy1和NeuN位点。Thy1-Cre大鼠具有下游p2a连接插入的特点，而NeuN-Cre插入在转录起始位点。通过与Cre报告基因（Rosa26imCherry）大鼠杂交和分析mCherry表达模式来评估Cre活性。用NeuN抗体免疫荧光进一步证实细胞类型的特异性。通过与ND1LSL大鼠杂交以消耗ND1来评估表型后果，随后监测体重/存活率并进行运动功能测试。结果：我们获得了两只神经元特异性大鼠（Thy1-Cre和NeuN-Cre），它们在脑和脊髓中具有较高的神经元特异性Cre表达，在其他组织中有少量渗漏。Thy1-Cre表现为脾、肺、肾轻度渗漏，NeuN-Cre表现为脾、肾轻度渗漏。ND1Thy1-Cre和ND1NeuN-Cre大鼠的体重和生存时间均下降。ND1NeuN-Cre大鼠在两周内死亡，而ND1Thy1-Cre大鼠在运动功能受损的情况下寿命更长。结论：我们成功生成了两只神经元特异性的NeuN-Cre和Thy1-Cre大鼠，并系统分析了它们的表达模式。

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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