Yang Yang, Su Yi, Wei Guiming, Kang Zhewei, Lu Zhe, Liao Yundan, Lu Tianlan, Yan Hao, Yue Weihua, Qin Ying, Zhang Yuyanan
Peking University Sixth Hospital, Peking University Institute of Mental Health, NHC Key Laboratory of Mental Health (Peking University), National Clinical Research Center for Mental Disorders (Peking University Sixth Hospital), Beijing, China.
Peking University HuiLongGuan Clinical Medical School, Beijing HuiLongGuan Hospital, Beijing, China.
Front Genet. 2022 Jun 21;13:941171. doi: 10.3389/fgene.2022.941171. eCollection 2022.
Schizophrenia is a severe mental disorder with high heritability, and cognitive dysfunction is one of the core features. Growing evidence suggests the genetic risk of schizophrenia may contribute to cognitive impairments. The variant rs1635 (nucleotide sequence: c.455C>A; amino acid sequence: T152N) located on the (NFKB activating protein like) gene confers risk for schizophrenia and might play a role in the neurodevelopmental process, which is particularly relevant to cognitive function. However, the relationship between rs1635 and cognitive function remains unclear. A total of 130 patients with early-onset schizophrenia (EOS) and 300 patients with adult-onset schizophrenia (AOS) of Han Chinese were recruited and underwent neurocognitive tests by using the MATRICS Consensus Cognitive Battery (MCCB). The rs1635 was genotyped by using DNA sequencing. The peripheral blood NKAPL mRNA expression level was examined in 152T or 152N carriers ( = 20) in EOS patients, by using the qRT-PCR. The phosphorylation level of NAKPL T152N polymorphism was detected by cell experiments. In utero electroporation of mouse embryos was examined to explore the effect of Nkapl on neuronal migration. Compared with rs1635 AA and AC carriers, CC (the CC genotype encodes the protein NKAPL-152T) carriers of EOS patients performed better in cognitive domain of speed of processing ( = 2.644, = 0.009), trail making test ( = 2.221, = 0.028) and category fluency ( = 2.578, = 0.011). However, patients with AOS exhibited no significant differences in seven domains among the three genotype groups. There were no significant differences in cognitive performance between EOS and AOS. In EOS patients, mRNA level in NKAPL-152N carriers is significantly lower than that of NKAPL-152T carriers. The phosphorylation level of NKAPL-152N is significantly decreased compared to NKAPL-152T. In utero electroporation showed that deletion impairs the embryonic radial migration process. The present study found that rs1635 was associated with cognitive impairments and peripheral blood mRNA expression level in EOS patients. The NKAPL full-length protein is required for embryonic cortical neuronal migration. The phosphorylation level of NKAPL-152N is significantly decreased. The NKAPL T152N may affect the NAKPL mRNA expression level and embryonic cortical neuronal migration by regulating the NAKPL protein phosphorylation. These data suggest that rs1635 affects cognitive function by regulating early brain development in early-onset schizophrenia.
精神分裂症是一种具有高遗传性的严重精神障碍,认知功能障碍是其核心特征之一。越来越多的证据表明,精神分裂症的遗传风险可能导致认知障碍。位于(核因子κB激活蛋白样)基因上的rs1635变异(核苷酸序列:c.455C>A;氨基酸序列:T152N)赋予了精神分裂症风险,并且可能在神经发育过程中发挥作用,这与认知功能特别相关。然而,rs1635与认知功能之间的关系仍不清楚。共招募了130例早发性精神分裂症(EOS)患者和300例成年起病精神分裂症(AOS)汉族患者,并使用MATRICS共识认知成套测验(MCCB)对他们进行神经认知测试。通过DNA测序对rs1635进行基因分型。在EOS患者的152T或152N携带者(n = 20)中,使用qRT-PCR检测外周血NKAPL mRNA表达水平。通过细胞实验检测NAKPL T152N多态性的磷酸化水平。对小鼠胚胎进行子宫内电穿孔以探究Nkapl对神经元迁移的影响。与rs1635 AA和AC携带者相比,EOS患者的CC(CC基因型编码蛋白NKAPL-152T)携带者在加工速度(t = 2.644,P = 0.009)、连线测验(t = 2.221,P = 0.028)和类别流畅性(t = 2.578,P = 0.011)的认知领域表现更好。然而,AOS患者在三个基因型组的七个领域中未表现出显著差异。EOS和AOS患者在认知表现上没有显著差异。在EOS患者中,NKAPL-152N携带者的mRNA水平显著低于NKAPL-152T携带者。与NKAPL-152T相比,NKAPL-152N的磷酸化水平显著降低。子宫内电穿孔显示Nkapl缺失会损害胚胎的放射状迁移过程。本研究发现,rs1635与EOS患者的认知障碍和外周血mRNA表达水平相关。胚胎皮质神经元迁移需要NKAPL全长蛋白。NKAPL-152N的磷酸化水平显著降低。NKAPL T152N可能通过调节NAKPL蛋白磷酸化来影响NAKPL mRNA表达水平和胚胎皮质神经元迁移。这些数据表明,rs1635通过调节早发性精神分裂症的早期脑发育来影响认知功能。
