Developmental Disorders Genetics Research Program, Department of Psychiatry and Human Behavior, Warren Alpert Medical School of Brown University and Emma Pendleton Bradley Hospital, East Providence, RI, USA.
Hassenfeld Child Health Innovation Institute, Brown University, Providence, RI, USA.
Hum Genet. 2019 Oct;138(10):1183-1200. doi: 10.1007/s00439-019-02057-x. Epub 2019 Aug 30.
The glutamate pyruvate transaminase 2 (GPT2) gene produces a nuclear-encoded mitochondrial enzyme that catalyzes the reversible transfer of an amino group from glutamate to pyruvate, generating alanine and alpha-ketoglutarate. Recessive mutations in GPT2 have been recently identified in a new syndrome involving intellectual and developmental disability (IDD), postnatal microcephaly, and spastic paraplegia. We have identified additional families with recessive GPT2 mutations and expanded the phenotype to include small stature. GPT2 loss-of-function mutations were identified in four families, nine patients total, including: a homozygous mutation in one child [c.775T>C (p.C259R)]; compound heterozygous mutations in two siblings [c.812A>C (p.N271T)/c.1432_1433delGT (p.V478Rfs73)]; a novel homozygous, putative splicing mutation [c.1035C>T (p.G345=)]; and finally, a recurrent mutation, previously identified in a distinct family [c.1210C>T (p.R404)]. All patients were diagnosed with IDD. A majority of patients had remarkably small stature throughout development, many < 1st percentile for height and weight. Given the potential biological function of GPT2 in cellular growth, this phenotype is strongly suggestive of a newly identified clinical susceptibility. Further, homozygous GPT2 mutations manifested in at least 2 of 176 families with IDD (approximately 1.1%) in a Pakistani cohort, thereby representing a relatively common cause of recessive IDD in this population, with recurrence of the p.R404* mutation in this population. Based on variants in the ExAC database, we estimated that approximately 1 in 248 individuals are carriers of moderately or severely deleterious variants in GPT2.
谷氨酸丙酮酸转氨酶 2(GPT2)基因产生一种核编码的线粒体酶,该酶催化谷氨酸到丙酮酸的氨基基团的可逆转移,生成丙氨酸和α-酮戊二酸。GPT2 的隐性突变最近在一种新的综合征中被发现,该综合征涉及智力和发育障碍(ID)、产后小头畸形和痉挛性截瘫。我们已经鉴定了具有隐性 GPT2 突变的其他家族,并将表型扩展到包括身材矮小。在四个家族中发现了 GPT2 功能丧失突变,共有九名患者,包括:一名儿童的纯合突变[c.775T>C(p.C259R)];两名同胞的复合杂合突变[c.812A>C(p.N271T)/c.1432_1433delGT(p.V478Rfs73)];一个新的纯合子、推测的剪接突变[c.1035C>T(p.G345=)];最后,一个复发性突变,之前在一个不同的家族中发现[c.1210C>T(p.R404)]。所有患者均被诊断为 ID。大多数患者在整个发育过程中身材矮小,许多患者的身高和体重都<1%。鉴于 GPT2 在细胞生长中的潜在生物学功能,这种表型强烈提示了一种新发现的临床易感性。此外,在巴基斯坦队列中,176 个 ID 家族中的至少 2 个家族(约 1.1%)中存在纯合 GPT2 突变,这表明该突变是该人群中隐性 ID 的相对常见原因,该人群中也存在 p.R404*突变的复发。根据 ExAC 数据库中的变体,我们估计大约每 248 个人中就有 1 个人是 GPT2 中度或严重有害变体的携带者。
