Yorkshire Regional Genetics Service, Chapel Allerton Hospital, Leeds Teaching Hospitals NHS Trust, Leeds, UK.
Northern Ireland Regional Genetics Service, Belfast City Hospital, Belfast Health & Social Care Trust, Belfast, Northern Ireland BT9 7AB, UK.
Gene. 2019 Feb 15;685:50-54. doi: 10.1016/j.gene.2018.10.067. Epub 2018 Oct 25.
The SRPX2 gene (Sushi-repeat-containing protein, X-linked, 2, OMIM*300642), located on Xq22.1, encodes a secreted protein that is highly expressed in neurons of cerebral cortex. SRPX2 was first implicated in neurodevelopment, learning and rolandic seizure when two patients with potentially pathogenic variants, c.980A>G (p.Asn327Ser) and c.215A>C (p.Tyr72Ser), in SRPX2 gene were identified. Subsequent experimental studies demonstrated that SRPX2 is needed for vocalization and synapse formation in mice, and that both silencing SRPX2 and injecting (p.Asn327Ser) in mouse models results in alteration in neuronal migration in cerebral cortex and epilepsy. A number of studies demonstrated that SRPX2 interacts with FOXP2 (Foxhead box protein P2), a gene responsible for speech and language disorder, and that FoxP2 controls timing and level of expression of SRPX2. Despite the supportive evidence for the role of SRPX2 in speech and language development and disorders, there are questions over its definitive association with neurodevelopmental disorders and epilepsy. In this paper, the role of SRPX2 as one in a network of many genes involved in speech and language is discussed. The goal of this paper is to examine the role of SRPX2 variants through describing two patients with potentially pathogenic variants in SRPX2, c.751G>C (p.Ala251Pro) and c.762G>T (p.Lys254Asn) presenting with language and motor delay, intellectual disability as well as congenital anomalies. We explore the contribution of SRPX2 variants to clinical phenotype in our patients and conclude that these variants at least partially explain the phenotype. Further studies are necessary to establish and confirm the association between SRPX2 and neurodevelopment particularly speech and language development.
SRPX2 基因(X 连锁 Sushi 重复蛋白,2,OMIM*300642)位于 Xq22.1 上,编码一种在大脑皮层神经元中高度表达的分泌蛋白。当在 SRPX2 基因中鉴定出两个具有潜在致病性变异的患者 c.980A>G(p.Asn327Ser)和 c.215A>C(p.Tyr72Ser)时,SRPX2 首先被牵连到神经发育、学习和 Rolandic 癫痫中。随后的实验研究表明,SRPX2 是小鼠发声和突触形成所必需的,沉默 SRPX2 和在小鼠模型中注射(p.Asn327Ser)都会导致大脑皮层神经元迁移和癫痫的改变。许多研究表明,SRPX2 与 FOXP2(Foxhead box protein P2)相互作用,FOXP2 是负责言语和语言障碍的基因,而 FoxP2 控制 SRPX2 的表达时间和水平。尽管有支持 SRPX2 在言语和语言发育及障碍中的作用的证据,但它与神经发育障碍和癫痫的明确关联仍存在疑问。本文讨论了 SRPX2 在言语和语言发育障碍中的作用作为涉及许多基因网络中的一个。本文的目的是通过描述具有潜在致病性变异的两个患者来研究 SRPX2 变异的作用,即 c.751G>C(p.Ala251Pro)和 c.762G>T(p.Lys254Asn),他们表现出语言和运动迟缓、智力残疾以及先天性异常。我们探讨了 SRPX2 变异对我们患者临床表型的贡献,并得出结论,这些变异至少部分解释了表型。需要进一步的研究来建立和确认 SRPX2 与神经发育,特别是言语和语言发育之间的关联。
