Fong Keith S K, Adachi Dana A T, Chang Shaun B, Lozanoff Scott
Department of Anatomy, Biochemistry, and Physiology, University of Hawaii, John A. Burns School of Medicine, Honolulu, Hawaii.
Birth Defects Res A Clin Mol Teratol. 2014 Aug;100(8):598-607. doi: 10.1002/bdra.23264. Epub 2014 Jun 13.
Genetic variations affecting neural tube closure along the head result in malformations to the face and brain, posing a significant impact on health care costs and the quality of life.
We have established a mouse line from a mutation that arose spontaneously in our wild-type colony that we called tuft. Tuft mice have heritable midline craniofacial defects featuring an anterior lipomatous cephalocele.
Whole-mount skeletal stains indicated that affected newborns had a broader interfrontal suture where the cephalocele emerged between the frontal bones. Mice with a cephalocele positioned near the rostrum also presented craniofacial malformations such as ocular hypertelorism and midfacial cleft of the nose. Gross and histological examination revealed that the lipomatous cephalocele originated as a fluid filled cyst no earlier than E14.5 while embryos with a midfacial cleft was evident during craniofacial development at E11.5. Histological sections of embryos with a midfacial cleft revealed the cephalic neuroectoderm remained proximal or fused to the frontonasal ectoderm about the closure site of the anterior neuropore, indicating a defect to neural tube closure. We found the neural folds along the rostrum of E9 to E10.5 embryos curled inward and failed to close as well as embryos with exencephaly and anencephaly at later stages. Whole-mount in situ hybridization of anterior markers Fgf8 and Sonic hedgehog indicated closure of the rostral site was compromised in severe cases.
We present a model demonstrating how anterior cranial cephaloceles are generated following a defect to neural tube closure and relevance to subsequent craniofacial morphogenesis in the tuft mouse.
影响头部神经管闭合的基因变异会导致面部和脑部畸形,对医疗成本和生活质量产生重大影响。
我们从野生型群体中自发出现的一种突变建立了一个小鼠品系,我们将其称为簇状(tuft)。簇状小鼠具有遗传性中线颅面缺陷,特征为前部脂肪瘤性脑膨出。
整体骨骼染色表明,受影响的新生儿在额骨之间出现脑膨出的额间缝更宽。脑膨出位于吻部附近的小鼠还出现颅面畸形,如眼距过宽和鼻中部裂。大体和组织学检查显示,脂肪瘤性脑膨出最早在E14.5时起源于一个充满液体的囊肿,而在E11.5的颅面发育过程中,鼻中部裂的胚胎很明显。鼻中部裂胚胎的组织学切片显示,在前神经孔闭合部位,头部神经外胚层保持近端状态或与额鼻外胚层融合,表明神经管闭合存在缺陷。我们发现,E9至E10.5胚胎吻部的神经褶向内卷曲且未能闭合,后期阶段的胚胎出现了脑外露和无脑畸形。前部标记物Fgf8和音猬因子(Sonic hedgehog)的整体原位杂交表明,严重情况下吻部位点的闭合受到损害。
我们提出了一个模型,展示了神经管闭合缺陷后前部颅骨脑膨出是如何产生的,以及与簇状小鼠后续颅面形态发生的相关性。