Yang Ruihuan, Li Ruyi, Huang Zhuo, Zuo Yining, Yue Haitang, Wu Hailin, Gu Fan, Wang Fei, He Miao, Bian Zhuan
The State Key Laboratory Breeding Base of Basic Science of Stomatology (Hubei-MOST) & Key Laboratory of Oral Biomedicine Ministry of Education, School & Hospital of Stomatology, Wuhan University, Wuhan, China.
Hum Mol Genet. 2022 Mar 3;31(5):803-815. doi: 10.1093/hmg/ddab288.
Non-syndromic cleft lip with or without cleft palate (NSCL/P) is the most common subphenotype of non-syndromic orofacial clefts arising from genetic and/or environmental perturbations during embryonic development. We previously identified 2p24.2 as a risk locus associated with NSCL/P in the Chinese Han population, and MYCN is a candidate risk gene in this region. To understand the potential function of MYCN in craniofacial development, we generated Wnt1-Cre;Mycnflox/flox mice that exhibited cleft palate, microglossia and micrognathia, resembling the Pierre Robin sequence (PRS) in humans. Further analyses indicated that the cleft palate was secondary to the delayed elevation of palatal shelves caused by micrognathia. The micrognathia resulted from impaired chondrogenic differentiation in Merkel's cartilage, which limited tongue development, leading to microglossia. In terms of mechanism, Mycn deficiency in cranial neural crest cells (CNCCs) downregulated Sox9 expression by inhibiting Wnt5a in a CNCC-derived chondrogenic lineage in Merkel's cartilage. To investigate whether MYCN deficiency contributed to NSCL/P, we performed direct sequencing targeting all exons and exon-intron boundaries of MYCN in 104 multiplex families with Mendelian NSCL/P and identified a novel pathogenic variant in MYCN. Taken together, our data indicate that ablation of Mycn in mouse CNCCs could resemble PRS by suppressing the Wnt5a-Sox9 signaling pathway in Merkel's cartilage and that mutations in MYCN may be novel potential causes of NSCL/P.
非综合征性唇裂伴或不伴腭裂(NSCL/P)是胚胎发育过程中由遗传和/或环境干扰引起的非综合征性口腔颌面部裂隙最常见的亚表型。我们之前在中国汉族人群中确定2p24.2为与NSCL/P相关的风险位点,MYCN是该区域的一个候选风险基因。为了解MYCN在颅面发育中的潜在功能,我们构建了Wnt1-Cre;Mycnflox/flox小鼠,这些小鼠表现出腭裂、小舌症和小颌畸形,类似于人类的皮埃尔·罗宾序列(PRS)。进一步分析表明,腭裂是由小颌畸形导致的腭板延迟抬高继发而来。小颌畸形是由于默克尔软骨中软骨生成分化受损所致,这限制了舌的发育,导致小舌症。在机制方面,颅神经嵴细胞(CNCCs)中Mycn的缺失通过抑制默克尔软骨中CNCCs来源的软骨生成谱系中的Wnt5a来下调Sox9的表达。为了研究MYCN缺失是否导致NSCL/P,我们对104个患有孟德尔式NSCL/P的多重家庭中MYCN的所有外显子和外显子-内含子边界进行了直接测序,并在MYCN中鉴定出一个新的致病变异。综上所述,我们的数据表明,小鼠CNCCs中Mycn的缺失可能通过抑制默克尔软骨中的Wnt5a-Sox9信号通路而类似于PRS,并且MYCN中的突变可能是NSCL/P的新的潜在病因。
