在唐氏综合征模型中,Ripply3过量会通过Tbx1下调诱导面中部缩短。

Jose Tomas Ahumada Saavedra, Claire Chevalier, Agnes Bloch Zupan, Yann Herault
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摘要

唐氏综合症(DS)最常见和最独特的特征是学习障碍和颅面(CF)畸形。唐氏综合征特有的颅面畸形特征是头颅尺寸整体缩小(小头畸形)、神经颅骨相对较宽(颅颌畸形)、眶区内侧缩小、颧骨宽度缩小、上颌骨小、下颌骨小以及个体差异增大。迄今为止,人们对这种特殊颅面表型的细胞和分子机制仍然知之甚少。通过对小鼠第16号染色体上与人类第21号染色体同源区域不同节段重复的DS小鼠模型进行研究,我们发现了导致DS特异性CF表型的新区域和两个候选基因的作用。首先,我们证实了 Dyrk1a 在神经颅骨畸形中的作用。然后,我们确定了转录因子Ripply3过量通过下调Tbx1在面中部缩短中的作用,Tbx1是另一个参与迪乔治综合征中CF面中部表型的转录因子。最后一种效应是在支弓发育过程中通过减少细胞增殖产生的。我们的研究结果确定了一个新的剂量敏感基因,该基因对 DS 颅面特征负有责任,并提出了拯救 DS CF 表型各个方面的新模型。这些数据还有助于深入了解在 DiGeorge 和 DS 模型中观察到的特定大脑和心血管表型,为潜在的靶向治疗开辟了道路,以缓解唐氏综合征的颅面畸形。
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Ripply3 overdosage induces mid-face shortening through Tbx1 downregulation in Down syndrome models.
The most frequent and unique features of Down syndrome (DS) are learning disability and craniofacial (CF) dysmorphism. The DS-specific CF features are an overall reduction in head dimensions (microcephaly), relatively wide neurocranium (brachycephaly), reduced mediolaterally orbital region, reduced bizygomatic breadth, small maxilla, small mandible, and increased individual variability. Until now, the cellular and molecular mechanisms underlying the specific craniofacial phenotype have remained poorly understood. Investigating a new panel of DS mouse models with different segmental duplications on mouse chromosome 16 in the region homologous to human chromosome 21, we identified new regions and the role of two candidate gene for DS-specific CF phenotypes. First, we confirmed the role of Dyrk1a in the neurocranium brachycephaly. Then, we identified the role of the transcription factor Ripply3 overdosage in midface shortening through the downregulation of Tbx1, another transcription factor involved in the CF midface phenotype encountered in DiGeorge syndrome. This last effect occurs during branchial arches development through a reduction in cell proliferation. Our findings define a new dosage-sensitive gene responsible for the DS craniofacial features and propose new models for rescuing all aspects of DS CF phenotypes. This data may also provide insights into specific brain and cardiovascular phenotypes observed in DiGeorge and DS models, opening avenues for potential targeted treatment to soften craniofacial dysmorphism in Down syndrome.
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