Ocular and neural genes jointly regulate the visuospatial working memory in ADHD children.

IF 4.7 2区心理学 Q1 BEHAVIORAL SCIENCES Behavioral and Brain Functions Pub Date : 2023-09-01 DOI:10.1186/s12993-023-00216-9

Yilu Zhao, Yuanxin Zhong, Wei Chen, Suhua Chang, Qingjiu Cao, Yufeng Wang, Li Yang

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Abstract

Objective: Working memory (WM) deficits have frequently been linked to attention deficit hyperactivity disorder (ADHD). Despite previous studies suggested its high heritability, its genetic basis, especially in ADHD, remains unclear. The current study aimed to comprehensively explore the genetic basis of visual-spatial working memory (VSWM) in ADHD using wide-ranging genetic analyses.

Methods: The current study recruited a cohort consisted of 802 ADHD individuals, all met DSM-IV ADHD diagnostic criteria. VSWM was assessed by Rey-Osterrieth complex figure test (RCFT), which is a widely used psychological test include four memory indexes: detail delayed (DD), structure delayed (SD), structure immediate (SI), detail immediate (DI). Genetic analyses were conducted at the single nucleotide polymorphism (SNP), gene, pathway, polygenic and protein network levels. Polygenic Risk Scores (PRS) were based on summary statistics of various psychiatric disorders, including ADHD, autism spectrum disorder (ASD), major depressive disorder (MDD), schizophrenia (SCZ), obsessive compulsive disorders (OCD), and substance use disorder (SUD).

Results: Analyses at the single-marker level did not yield significant results (5E-08). However, the potential signals with P values less than E-05 and their mapped genes suggested the regulation of VSWM involved both ocular and neural system related genes, moreover, ADHD-related genes were also involved. The gene-based analysis found RAB11FIP1, whose encoded protein modulates several neurodevelopment processes and visual system, as significantly associated with DD scores (P = 1.96E-06, P_adj = 0.036). Candidate pathway enrichment analyses (N = 53) found that forebrain neuron fate commitment significantly enriched in DD (P = 4.78E-04, Padj = 0.025), and dopamine transport enriched in SD (P = 5.90E-04, Padj = 0.031). We also observed a significant negative relationship between DD scores and ADHD PRS scores (P = 0.0025, Empirical P = 0.048).

Conclusions: Our results emphasized the joint contribution of ocular and neural genes in regulating VSWM. The study reveals a shared genetic basis between ADHD and VSWM, with GWAS indicating the involvement of ADHD-related genes in VSWM. Additionally, the PRS analysis identifies a significant relationship between ADHD-PRS and DD scores. Overall, our findings shed light on the genetic basis of VSWM deficits in ADHD, and may have important implications for future research and clinical practice.

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眼球和神经基因共同调控ADHD儿童的视觉空间工作记忆。

目的:工作记忆(WM)缺陷经常与注意缺陷多动障碍(ADHD)联系在一起。尽管先前的研究表明其具有高遗传性，但其遗传基础，特别是ADHD的遗传基础仍不清楚。本研究旨在通过广泛的遗传分析，全面探讨ADHD的视觉空间工作记忆(VSWM)的遗传基础。方法:本研究招募了802名ADHD个体，均符合DSM-IV ADHD诊断标准。VSWM采用Rey-Osterrieth复杂图形测验(RCFT)进行评估，RCFT是一种广泛使用的心理测试，包括四个记忆指标:细节延迟(DD)、结构延迟(SD)、结构即时(SI)、细节即时(DI)。从单核苷酸多态性(SNP)、基因、通路、多基因和蛋白网络水平进行遗传分析。多基因风险评分(PRS)基于各种精神疾病的汇总统计，包括ADHD、自闭症谱系障碍(ASD)、重度抑郁症(MDD)、精神分裂症(SCZ)、强迫症(OCD)和物质使用障碍(SUD)。结果:单标记水平的分析没有产生显著结果(5E-08)。然而，P值小于E-05的电位信号及其定位基因表明，VSWM的调控不仅涉及眼部和神经系统相关基因，还涉及adhd相关基因。基于基因的分析发现，RAB11FIP1编码的蛋白调节多个神经发育过程和视觉系统，与DD评分显著相关(P = 1.96E-06, Padj = 0.036)。候选通路富集分析(N = 53)发现，前脑神经元命运承诺在DD显著富集(P = 4.78E-04, Padj = 0.025)，多巴胺转运在SD显著富集(P = 5.90E-04, Padj = 0.031)。我们还观察到DD评分与ADHD PRS评分呈显著负相关(P = 0.0025, Empirical P = 0.048)。结论:我们的研究结果强调了眼部和神经基因在VSWM调控中的共同作用。该研究揭示了ADHD和VSWM之间的共同遗传基础，GWAS表明ADHD相关基因参与了VSWM。此外，PRS分析确定了ADHD-PRS和DD得分之间的显著关系。总的来说，我们的发现揭示了ADHD中VSWM缺陷的遗传基础，并可能对未来的研究和临床实践具有重要意义。

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来源期刊

Behavioral and Brain Functions 医学-行为科学

CiteScore

5.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： A well-established journal in the field of behavioral and cognitive neuroscience, Behavioral and Brain Functions welcomes manuscripts which provide insight into the neurobiological mechanisms underlying behavior and brain function, or dysfunction. The journal gives priority to manuscripts that combine both neurobiology and behavior in a non-clinical manner.