SRPK3 Is Essential for Cognitive and Ocular Development in Humans and Zebrafish, Explaining X-Linked Intellectual Disability

IF 8.1 1区 医学 Q1 CLINICAL NEUROLOGY
Arkaprava Roychaudhury MS, Yu-Ri Lee PhD, Tae-Ik Choi PhD, Mervyn G. Thomas MD, PhD, Tahir N. Khan PhD, Hammad Yousaf MS, Cindy Skinner BSN, RN, Gail Maconachie PhD, Moira Crosier HNC, Holli Horak MD, Cris S. Constantinescu MD, PhD, FRCP, Tae-Yoon Kim PhD, Kang-Han Lee PhD, Jae-Jun Kyung MS, Tao Wang PhD, Bonsu Ku PhD, Bernard N. Chodirker MD, Michael F. Hammer PhD, Irene Gottlob MD, PhD, William H. J. Norton PhD, Robert Gerlai PhD, Hyung-Goo Kim PhD, Claudio Graziano MD, Tommaso Pippucci PhD, Emanuela Iovino PhD, Francesca Montanari MD, Giulia Severi MD, Camilo Toro MD, Cornelius F. Boerkoel MD, PhD, Hyo Sun Cha BS, Cheol Yong Choi PhD, Sungjin Kim PhD, Je-Hyun Yoon PhD, Kelly Gilmore MS, Neeta L. Vora MD, Erica E. Davis PhD, Albert E. Chudley MD, Charles E. Schwartz MD, PhD, Cheol-Hee Kim PhD
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引用次数: 0

Abstract

Objective

Intellectual disability is often the outcome of neurodevelopmental disorders and is characterized by significant impairments in intellectual and adaptive functioning. X-linked intellectual disability (XLID) is a subset of these disorders caused by genetic defects on the X chromosome, affecting about 2 out of 1,000 males. In syndromic form, it leads to a broad range of cognitive, behavioral, ocular, and physical disabilities.

Methods

Employing exome or genome sequencing, here we identified 4 missense variants (c.475C > G; p.H159D, c.1373C > A; p.T458N, and c.1585G > A; p.E529K, c.953C > T; p.S318L) and a putative truncating variant (c.1413_1414del; p.Y471*) in the SRPK3 gene in 9 XLID patients from 5 unrelated families. To validate SRPK3 as a novel XLID gene, we established a knockout (KO) model of the SRPK3 orthologue in zebrafish.

Results

The 8 patients ascertained postnatally shared common clinical features including intellectual disability, agenesis of the corpus callosum, abnormal eye movement, and ataxia. A ninth case, ascertained prenatally, had a complex structural brain phenotype. Together, these data indicate a pathological role of SRPK3 in neurodevelopmental disorders. In post-fertilization day 5 larvae (free swimming stage), KO zebrafish exhibited severe deficits in eye movement and swim bladder inflation, mimicking uncontrolled ocular movement and physical clumsiness observed in human patients. In adult KO zebrafish, cerebellar agenesis and behavioral abnormalities were observed, recapitulating human phenotypes of cerebellar atrophy and intellectual disability.

Interpretation

Overall, these results suggest a crucial role of SRPK3 in the pathogenesis of syndromic X-linked intellectual disability and provide new insights into brain development, cognitive and ocular dysfunction in both humans and zebrafish. ANN NEUROL 2024;96:914–931

Abstract Image

SRPK3对人类和斑马鱼的认知和眼部发育至关重要,可解释X-连锁智力障碍。
目的:智力障碍通常是神经发育障碍的结果,其特点是智力和适应功能严重受损。X连锁智力障碍(XLID)是这些疾病的一个子集,由X染色体上的遗传缺陷引起,每1000名男性中约有2人患病。在综合征形式下,它会导致一系列认知、行为、眼部和身体残疾:方法:通过外显子组或基因组测序,我们在来自5个非亲缘关系家族的9名XLID患者中发现了SRPK3基因中的4个错义变异(c.475C > G; p.H159D、c.1373C > A; p.T458N、c.1585G > A; p.E529K、c.953C > T; p.S318L)和一个假定截断变异(c.1413_1414del; p.Y471*)。为了验证SRPK3是一个新的XLID基因,我们在斑马鱼中建立了一个SRPK3同源基因的基因敲除(KO)模型:结果:8 名产后确诊的患者具有共同的临床特征,包括智力障碍、胼胝体发育不全、眼球运动异常和共济失调。第 9 个病例是在产前发现的,具有复杂的大脑结构表型。这些数据共同表明,SRPK3 在神经发育障碍中起着病理作用。在受精后第5天的幼体(自由泳阶段)中,KO斑马鱼在眼球运动和鳔充气方面表现出严重的缺陷,模仿了人类患者不受控制的眼球运动和身体笨拙的表现。在成年 KO 斑马鱼中,观察到小脑发育不全和行为异常,再现了小脑萎缩和智力残疾的人类表型:总之,这些结果表明SRPK3在综合征X连锁智障的发病机制中起着关键作用,并为人类和斑马鱼的大脑发育、认知和眼部功能障碍提供了新的见解。ann neurol 2024.
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来源期刊
Annals of Neurology
Annals of Neurology 医学-临床神经学
CiteScore
18.00
自引率
1.80%
发文量
270
审稿时长
3-8 weeks
期刊介绍: Annals of Neurology publishes original articles with potential for high impact in understanding the pathogenesis, clinical and laboratory features, diagnosis, treatment, outcomes and science underlying diseases of the human nervous system. Articles should ideally be of broad interest to the academic neurological community rather than solely to subspecialists in a particular field. Studies involving experimental model system, including those in cell and organ cultures and animals, of direct translational relevance to the understanding of neurological disease are also encouraged.
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