在模拟人类Apert综合征的FGFR2-P253R小鼠中，颅骨形态异常是由颅盖、颅底和大脑发育不良的综合影响所致。

Deformed Skull Morphology Is Caused by the Combined Effects of the Maldevelopment of Calvarias, Cranial Base and Brain in FGFR2-P253R Mice Mimicking Human Apert Syndrome.

作者信息

Luo Fengtao, Xie Yangli, Xu Wei, Huang Junlan, Zhou Siru, Wang Zuqiang, Luo Xiaoqing, Liu Mi, Chen Lin, Du Xiaolan

机构信息

Department of Rehabilitation Medicine, Center of Bone Metabolism and Repair, State Key Laboratory of Trauma, Burns and Combined Injury, Trauma Center, Research Institute of Surgery, Daping Hospital, Third Military Medical University, Chongqing 400042, China.

出版信息

Int J Biol Sci. 2017 Jan 1;13(1):32-45. doi: 10.7150/ijbs.16287. eCollection 2017.

DOI:10.7150/ijbs.16287

PMID:28123344

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5264259/

Abstract

Apert syndrome (AS) is a common genetic syndrome in humans characterized with craniosynostosis. Apert patients and mouse models showed abnormalities in sutures, cranial base and brain, that may all be involved in the pathogenesis of skull malformation of Apert syndrome. To distinguish the differential roles of these components of head in the pathogenesis of the abnormal skull morphology of AS, we generated mouse strains specifically expressing mutant FGFR2 in chondrocytes, osteoblasts, and progenitor cells of central nervous system (CNS) by crossing Fgfr2 mice with Col2a1-Cre, Osteocalcin-Cre (OC-Cre), and Nestin-Cre mice, respectively. We then quantitatively analyzed the skull and brain morphology of these mutant mice by micro-CT and micro-MRI using Euclidean distance matrix analysis (EDMA). Skulls of Col2a1-Fgfr2 mice showed Apert syndrome-like dysmorphology, such as shortened skull dimensions along the rostrocaudal axis, shortened nasal bone, and evidently advanced ossification of cranial base synchondroses. The OC-Fgfr2 mice showed malformation in face at 8-week stage. Nestin-Fgfr2 mice exhibited increased dorsoventral height and rostrocaudal length on the caudal skull and brain at 8 weeks. Our study indicates that the abnormal skull morphology of AS is caused by the combined effects of the maldevelopment in calvarias, cranial base, and brain tissue. These findings further deepen our knowledge about the pathogenesis of the abnormal skull morphology of AS, and provide new clues for the further analyses of skull phenotypes and clinical management of AS.

摘要

阿佩尔综合征（AS）是一种常见的人类遗传性综合征，其特征为颅缝早闭。阿佩尔综合征患者和小鼠模型显示出缝线、颅底和脑部存在异常，这些可能都参与了阿佩尔综合征颅骨畸形的发病机制。为了区分头部这些组成部分在阿佩尔综合征异常颅骨形态发病机制中的不同作用，我们分别将Fgfr2小鼠与Col2a1-Cre、骨钙素-Cre（OC-Cre）和巢蛋白-Cre小鼠杂交，从而生成在软骨细胞、成骨细胞和中枢神经系统（CNS）祖细胞中特异性表达突变型FGFR2的小鼠品系。然后，我们使用欧几里得距离矩阵分析（EDMA），通过微型计算机断层扫描（micro-CT）和微型磁共振成像（micro-MRI）对这些突变小鼠的颅骨和脑形态进行了定量分析。Col2a1-Fgfr2小鼠的颅骨表现出类似阿佩尔综合征的畸形，如沿前后轴的颅骨尺寸缩短、鼻骨缩短以及颅底软骨联合明显提前骨化。OC-Fgfr2小鼠在8周龄时面部出现畸形。Nestin-Fgfr2小鼠在8周龄时尾侧颅骨和脑部的背腹高度增加，前后长度增加。我们的研究表明，阿佩尔综合征异常颅骨形态是由颅盖、颅底和脑组织发育异常的综合作用引起的。这些发现进一步加深了我们对阿佩尔综合征异常颅骨形态发病机制的认识，并为进一步分析颅骨表型和阿佩尔综合征的临床管理提供了新线索。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5a25/5264259/97dddb0de69a/ijbsv13p0032g001.jpg

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在模拟人类Apert综合征的FGFR2-P253R小鼠中，颅骨形态异常是由颅盖、颅底和大脑发育不良的综合影响所致。

Deformed Skull Morphology Is Caused by the Combined Effects of the Maldevelopment of Calvarias, Cranial Base and Brain in FGFR2-P253R Mice Mimicking Human Apert Syndrome.

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