Taf1 knockout is lethal in embryonic male mice and heterozygous females show weight and movement disorders.

IF 4 3区 医学 Q2 CELL BIOLOGY Disease Models & Mechanisms Pub Date : 2024-07-01 Epub Date: 2024-07-10 DOI:10.1242/dmm.050741
Elisa M Crombie, Andrea J Korecki, Karen Cleverley, Bethany A Adair, Thomas J Cunningham, Weaverly Colleen Lee, Tess C Lengyell, Cheryl Maduro, Victor Mo, Liam M Slade, Ines Zouhair, Elizabeth M C Fisher, Elizabeth M Simpson
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Abstract

The TATA box-binding protein-associated factor 1 (TAF1) is a ubiquitously expressed protein and the largest subunit of the basal transcription factor TFIID, which plays a key role in initiation of RNA polymerase II-dependent transcription. TAF1 missense variants in human males cause X-linked intellectual disability, a neurodevelopmental disorder, and TAF1 is dysregulated in X-linked dystonia-parkinsonism, a neurodegenerative disorder. However, this field has lacked a genetic mouse model of TAF1 disease to explore its mechanism in mammals and treatments. Here, we generated and validated a conditional cre-lox allele and the first ubiquitous Taf1 knockout mouse. We discovered that Taf1 deletion in male mice was embryonically lethal, which may explain why no null variants have been identified in humans. In the brains of Taf1 heterozygous female mice, no differences were found in gross structure, overall expression and protein localisation, suggesting extreme skewed X inactivation towards the non-mutant chromosome. Nevertheless, these female mice exhibited a significant increase in weight, weight with age, and reduced movement, suggesting that a small subset of neurons was negatively impacted by Taf1 loss. Finally, this new mouse model may be a future platform for the development of TAF1 disease therapeutics.

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Taf1 基因敲除对胚胎雄性小鼠是致命的,杂合子雌性小鼠表现出体重和运动障碍。
TATA-box 结合蛋白相关因子 1(TAF1)是一种普遍表达的蛋白质,也是基础转录因子 TFIID 的最大亚基,在 RNA 聚合酶 II 依赖性转录的启动过程中发挥着关键作用。男性的 TAF1 错义变体会导致 X 连锁智力障碍(一种神经发育障碍),而 TAF1 在 X 连锁肌张力障碍-帕金森病(一种神经退行性疾病)中则会失调。然而,这一领域一直缺乏TAF1疾病的遗传小鼠模型来探索哺乳动物的发病机制和治疗方法。在这里,我们产生并验证了一个条件性 cre-lox 等位基因,并首次发现了普遍存在的 Taf1 基因敲除小鼠。我们发现,雄性小鼠的Taf1缺失在胚胎期是致死的,这也许可以解释为什么没有发现人类的无效变异体。在 Taf1 杂合雌性小鼠的大脑中,我们没有发现毛细结构、整体表达和蛋白质定位方面的差异,这表明 X 失活向非突变染色体极端倾斜。尽管如此,这些雌性小鼠的体重、随年龄增长的体重和运动能力都显著增加,这表明一小部分神经元受到了 Taf1 缺失的负面影响。最后,这种新的小鼠可能是未来开发 TAF1 疾病疗法的一个平台。
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来源期刊
Disease Models & Mechanisms
Disease Models & Mechanisms 医学-病理学
CiteScore
6.60
自引率
7.00%
发文量
203
审稿时长
6-12 weeks
期刊介绍: Disease Models & Mechanisms (DMM) is an online Open Access journal focusing on the use of model systems to better understand, diagnose and treat human disease.
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