MIR137基因敲除微型猪神经发育障碍模型的产生和转录组学特征。

IF 6.1 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Cell and Bioscience Pub Date : 2024-06-28 DOI:10.1186/s13578-024-01268-8
Shengyun Xu, Jiaoxiang Wang, Kexin Mao, Deling Jiao, Zhu Li, Heng Zhao, Yifei Sun, Jin Feng, Yuanhao Lai, Ruiqi Peng, Yu Fu, Ruoyi Gan, Shuhan Chen, Hong-Ye Zhao, Hong-Jiang Wei, Ying Cheng
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引用次数: 0

摘要

背景:神经发育障碍(NDD),如自闭症谱系障碍(ASD)和智力障碍(ID),是使人极度衰弱的儿童精神疾病。遗传因素被认为在 NDD 中起着重要作用,其中牵涉到许多基因和基因组区域。虽然 NDD 相关基因的功能验证主要通过小鼠模型进行,但小鼠与人类在大脑结构和基因功能方面的显著差异限制了小鼠模型在探索 NDD 潜在机制方面的有效性。因此,建立与人类进化过程更加一致的替代动物模型非常重要:在这项研究中,我们采用 CRISPR/Cas9 和体细胞核移植技术,成功地建立了 MIR137 基因的基因敲除微型猪模型,该基因编码与神经精神障碍相关的 microRNA miR-137。MIR137基因的同基因敲除(MIR137-/-)有效抑制了成熟miR-137的表达,导致出生的仔猪死胎或短命。转录组分析表明,MIR137-/-迷你猪大脑中与神经发育和突触信号转导相关的基因发生了显著变化,这与人类ASD转录组数据的发现如出一辙。与缺失miR-137的小鼠和人类诱导多能干细胞(hiPSC)衍生的神经元模型相比,微型猪模型在缺失miR-137后表现出与人类相关的关键神经元基因更一致的变化。此外,一项比较分析在微型猪和 hiPSC 衍生的神经元中发现了与 ASD 和 ID 风险基因相关的不同表达基因。值得注意的是,人类特异性 miR-137 靶点,如已知与认知障碍和 NDD 相关的 CAMK2A,在 MIR137-/- miniature 猪体内表现出失调。这些发现表明,微型猪体内miR-137的缺失会影响对神经发育至关重要的基因,从而可能导致NDD的发生:结论:我们的研究强调了miR-137缺失对参与MIR137-/-迷你猪神经发育和相关疾病的关键基因的影响。它将微型猪模型确立为研究神经发育障碍的重要工具,为人类研究的潜在应用提供了宝贵的见解。
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Generation and transcriptomic characterization of MIR137 knockout miniature pig model for neurodevelopmental disorders.

Background: Neurodevelopmental disorders (NDD), such as autism spectrum disorders (ASD) and intellectual disorders (ID), are highly debilitating childhood psychiatric conditions. Genetic factors are recognized as playing a major role in NDD, with a multitude of genes and genomic regions implicated. While the functional validation of NDD-associated genes has predominantly been carried out using mouse models, the significant differences in brain structure and gene function between mice and humans have limited the effectiveness of mouse models in exploring the underlying mechanisms of NDD. Therefore, it is important to establish alternative animal models that are more evolutionarily aligned with humans.

Results: In this study, we employed CRISPR/Cas9 and somatic cell nuclear transplantation technologies to successfully generate a knockout miniature pig model of the MIR137 gene, which encodes the neuropsychiatric disorder-associated microRNA miR-137. The homozygous knockout of MIR137 (MIR137-/-) effectively suppressed the expression of mature miR-137 and led to the birth of stillborn or short-lived piglets. Transcriptomic analysis revealed significant changes in genes associated with neurodevelopment and synaptic signaling in the brains of MIR137-/- miniature pig, mirroring findings from human ASD transcriptomic data. In comparison to miR-137-deficient mouse and human induced pluripotent stem cell (hiPSC)-derived neuron models, the miniature pig model exhibited more consistent changes in critical neuronal genes relevant to humans following the loss of miR-137. Furthermore, a comparative analysis identified differentially expressed genes associated with ASD and ID risk genes in both miniature pig and hiPSC-derived neurons. Notably, human-specific miR-137 targets, such as CAMK2A, known to be linked to cognitive impairments and NDD, exhibited dysregulation in MIR137-/- miniature pigs. These findings suggest that the loss of miR-137 in miniature pigs affects genes crucial for neurodevelopment, potentially contributing to the development of NDD.

Conclusions: Our study highlights the impact of miR-137 loss on critical genes involved in neurodevelopment and related disorders in MIR137-/- miniature pigs. It establishes the miniature pig model as a valuable tool for investigating neurodevelopmental disorders, providing valuable insights for potential applications in human research.

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来源期刊
Cell and Bioscience
Cell and Bioscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
10.70
自引率
0.00%
发文量
187
审稿时长
>12 weeks
期刊介绍: Cell and Bioscience, the official journal of the Society of Chinese Bioscientists in America, is an open access, peer-reviewed journal that encompasses all areas of life science research.
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