Human-specific insights into candidate genes and boosted discoveries of novel loci illuminate roles of neuroglia in reading disorders

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-16 DOI:10.1111/gbb.12899
Wen-Hua Wei, Shaowei Ma, Bo Fu, Ranran Song, Hui Guo
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Abstract

Reading disorders (RD) are human-specific neuropsychological conditions associated with decoding printed words and/or reading comprehension. So far only a handful of candidate genes segregated in families and 42 loci from genome-wide association study (GWAS) have been identified that jointly provided little clues of pathophysiology. Leveraging human-specific genomic information, we critically assessed the RD candidates for the first time and found substantial human-specific features within. The GWAS candidates (i.e., population signals) were distinct from the familial counterparts and were more likely pleiotropic in neuropsychiatric traits and to harbor human-specific regulatory elements (HSREs). Candidate genes associated with human cortical morphology indeed showed human-specific expression in adult brain cortices, particularly in neuroglia likely regulated by HSREs. Expression levels of candidate genes across human brain developmental stages showed a clear pattern of uplifted expression in early brain development crucial to RD development. Following the new insights and loci pleiotropic in cognitive traits, we identified four novel genes from the GWAS sub-significant associations (i.e., FOXO3, MAPT, KMT2E and HTT) and the Semaphorin gene family with functional priors (i.e., SEMA3A, SEMA3E and SEMA5B). These novel genes were related to neuronal plasticity and disorders, mostly conserved the pattern of uplifted expression in early brain development and had evident expression in cortical neuroglial cells. Our findings jointly illuminated the association of RD with neuroglia regulation—an emerging hotspot in studying neurodevelopmental disorders, and highlighted the need of improving RD phenotyping to avoid jeopardizing future genetic studies of RD.

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对候选基因的人类特异性洞察和对新基因座的进一步发现,阐明了神经胶质细胞在阅读障碍中的作用。
阅读障碍(RD)是与文字解码和/或阅读理解相关的人类特异性神经心理学疾病。迄今为止,我们只从全基因组关联研究(GWAS)中发现了少数几个家系分离的候选基因和 42 个基因位点,这些基因和位点共同提供的病理生理学线索很少。利用人类特异性基因组信息,我们首次对 RD 候选基因进行了严格评估,并发现了其中大量的人类特异性特征。全球基因组研究的候选基因(即群体信号)与家族性候选基因不同,它们更有可能在神经精神特质中具有多效性,并蕴含人类特异性调控元件(HSRE)。与人类大脑皮层形态相关的候选基因在成人大脑皮层中确实表现出人类特异性表达,特别是在可能受 HSREs 调节的神经胶质细胞中。候选基因在人脑各发育阶段的表达水平显示,在对 RD 发育至关重要的早期脑发育阶段,候选基因的表达明显升高。根据认知特征的新见解和多效应位点,我们从 GWAS 亚显性关联中发现了四个新基因(即 FOXO3、MAPT、KMT2E 和 HTT)以及具有功能先验性的 Semaphorin 基因家族(即 SEMA3A、SEMA3E 和 SEMA5B)。这些新基因与神经元的可塑性和失调有关,在早期大脑发育过程中大多保持了上行表达模式,并在大脑皮层神经胶质细胞中有明显表达。我们的发现共同揭示了 RD 与神经胶质细胞调控的关联--这是研究神经发育障碍的一个新兴热点,并强调了改进 RD 表型的必要性,以避免影响未来的 RD 遗传学研究。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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