Sato Tatsuharu, Kato Mitsuhiro, Moriyama Kaoru, Haraguchi Kohei, Saitsu Hirotomo, Matsumoto Naomichi, Moriuchi Hiroyuki
Department of Pediatrics, Nagasaki University Hospital, Japan.
Department of Pediatrics, Showa University School of Medicine, Japan.
Brain Dev. 2018 Oct;40(9):819-823. doi: 10.1016/j.braindev.2018.05.012. Epub 2018 Jun 12.
Tubulinopathies include a wide spectrum of disorders ranging from abnormal ocular movement to severe brain malformations, and typically present as diffuse agyria or perisylvian pachygyria with microcephaly, agenesis of the corpus callosum, and cerebellar hypoplasia. They are caused by the dysfunction of tubulins encoded by tubulin-related genes, and the TUBA1A gene encoding alpha-1A tubulin is most frequently responsible for this clinical entity. Porencephaly is relatively rare among patients with the TUBA1A mutations. Mild case of tubulinopathy associated with porencephaly caused by a novel TUBA1A mutation.
The patient, a 10-month-old girl, presented with gross motor delay at 4 months of age and convulsions at 7 months of age. Brain magnetic resonance imaging showed porencephaly, occipital polymicrogyria, hypoplasia of the corpus callosum, volume loss of the white matter, dysgenesis of anterior limbs of internal capsules, non-separative basal ganglia, cerebellar hypoplasia, and dysplastic brainstem. We identified a novel de novo heterozygous missense mutation in the TUBA1A gene, c.381C > A (p.Asp127Glu), by whole-exome sequencing.
Microtubules composed of tubulins regulate not only neuronal migration but also cell division or axon guidance. Accordingly, tubulinopathy affects the cortical lamination, brain size, callosal formation, and white matter as seen in the present case. In contrast to the previously reported cases, the present case showed milder cortical dysgenesis with a rare manifestation of porencephaly. The genotype-phenotype correlation is still unclear, and this study expands the phenotypic range of tubulinopathy.
微管蛋白病包括一系列广泛的疾病,从异常眼球运动到严重的脑畸形,通常表现为弥漫性无脑回或外侧裂周围巨脑回,并伴有小头畸形、胼胝体发育不全和小脑发育不全。它们是由微管蛋白相关基因编码的微管蛋白功能障碍引起的,编码α-1A微管蛋白的TUBA1A基因最常导致这种临床病症。脑穿通畸形在TUBA1A突变患者中相对罕见。由一种新的TUBA1A突变引起的与脑穿通畸形相关的轻度微管蛋白病病例。
该患者为一名10个月大的女孩,4个月大时出现大运动发育迟缓,7个月大时出现惊厥。脑磁共振成像显示脑穿通畸形、枕叶多小脑回、胼胝体发育不全、白质体积减少、内囊前肢发育异常、基底节未分离、小脑发育不全和脑干发育异常。我们通过全外显子测序在TUBA1A基因中鉴定出一种新的从头杂合错义突变,c.381C>A(p.Asp127Glu)。
由微管蛋白组成的微管不仅调节神经元迁移,还调节细胞分裂或轴突导向。因此,如本病例所示,微管蛋白病会影响皮质分层、脑大小、胼胝体形成和白质。与先前报道的病例相比,本病例显示皮质发育异常较轻,脑穿通畸形表现罕见。基因型与表型的相关性仍不清楚,本研究扩展了微管蛋白病的表型范围。
