Abdelrahman Hanadi A, John Anne, Ali Bassam R, Al-Gazali Lihadh
Department of Pathology, United Arab Emirates University, Al Ain, UAE.
Department of Zayed Center for Health Sciences, College of Medicine and Health Sciences, United Arab Emirates University, Al Ain, UAE.
Mol Syndromol. 2019 May;10(3):171-176. doi: 10.1159/000497337. Epub 2019 Mar 6.
The gene encodes the downstream neighbor of SON, a replisome component that stabilizes the replication fork during replication. A severe form of microcephalic dwarfism, microcephaly-micromelia syndrome (MIMIS), has been recently associated with biallelic loss of function. Affected fetuses suffer severe growth restriction, microcephaly, and variable limb malformations which result in intrauterine or perinatal death. All described fetuses carried a homozygous founder mutation (c.1047-9A>G), a splice-altering variant that leads to transcript degradation. We evaluated 2 newborns from a consanguineous Emirati family with severe microcephaly, micromelia, craniofacial dysmorphism, and skeletal abnormalities; both died shortly after birth. Here, we report the second homozygous loss-of-function variant (c.763C>T) in causing MIMIS, and we provide detailed clinical description of this very rare disorder. In addition, we review all MIMIS cases in the literature and summarize the striking features of this phenotype. This manuscript is aimed to increase the clinical understanding of this rare, extremely severe disorder and encourage clinical and molecular geneticists to consider screening for loss-of-function variants in families with recurrent pregnancy loss and/or perinatal deaths.
该基因编码SON的下游邻接基因,SON是一种复制体成分,在复制过程中稳定复制叉。一种严重形式的小头畸形侏儒症,即小头畸形-短肢综合征(MIMIS),最近被发现与双等位基因功能丧失有关。受影响的胎儿会出现严重的生长受限、小头畸形以及各种肢体畸形,最终导致宫内死亡或围产期死亡。所有已描述的胎儿都携带一个纯合的始祖突变(c.1047-9A>G),这是一种改变剪接的变异,会导致转录本降解。我们评估了来自一个近亲结婚的阿联酋家庭的2名新生儿,他们患有严重的小头畸形、短肢、颅面畸形和骨骼异常;两人均在出生后不久死亡。在此,我们报告了导致MIMIS的第二个纯合功能丧失变异(c.763C>T),并提供了这种非常罕见疾病的详细临床描述。此外,我们回顾了文献中所有的MIMIS病例,并总结了该表型的显著特征。本文旨在增进对这种罕见、极其严重疾病的临床认识,并鼓励临床和分子遗传学家考虑对有反复流产和/或围产期死亡的家庭进行功能丧失变异的筛查。