Department of Psychiatry,Melbourne Neuropsychiatry Centre, The University of Melbourne and Melbourne Health,Carlton South, VIC,Australia.
Psychiatric Genetic Epidemiology & Neurobiology Laboratory (PsychGENe Lab), Departments of Psychiatry and Behavioral Sciences and Neuroscience and Physiology,SUNY Upstate Medical University,Syracuse, New York.
Psychol Med. 2018 Apr;48(5):801-809. doi: 10.1017/S0033291717002173. Epub 2017 Aug 22.
Two single-nucleotide polymorphisms (SNPs) (rs4281084 and rs12155594) within the neuregulin-1 (NRG1) gene have been associated with psychosis transition. However, the neurobiological changes associated with these SNPs remain unclear. We aimed to determine what relationship these two SNPs have on lateral ventricular volume and white matter integrity, as abnormalities in these brain structures are some of the most consistent in schizophrenia.
Structural (n = 370) and diffusion (n = 465) magnetic resonance imaging data were obtained from affected and unaffected individuals predominantly of European descent. The SNPs rs4281084, rs12155594, and their combined allelic load were examined for their effects on lateral ventricular volume, fractional anisotropy (FA) as well as axial (AD) and radial (RD) diffusivity. Additional exploratory analyses assessed NRG1 effects on gray matter volume, cortical thickness, and surface area throughout the brain.
Individuals with a schizophrenia age of onset ⩽25 and a combined allelic load ⩾3 NRG1 risk alleles had significantly larger right (up to 50%, p adj = 0.01) and left (up to 45%, p adj = 0.05) lateral ventricle volumes compared with those with allelic loads of less than three. Furthermore, carriers of three or more risk alleles, regardless of age of onset and case status, had significantly reduced FA and elevated RD but stable AD in the frontal cortex compared with those carrying fewer than three risk alleles.
Our findings build on a growing body of research supporting the functional importance of genetic variation within the NRG1 gene and complement previous findings implicating the rs4281084 and rs12155594 SNPs as markers for psychosis transition.
神经调节蛋白 1(NRG1)基因内的两个单核苷酸多态性(SNP)(rs4281084 和 rs12155594)与精神病转化有关。然而,与这些 SNP 相关的神经生物学变化仍不清楚。我们的目的是确定这两个 SNP 与侧脑室体积和白质完整性有什么关系,因为这些脑结构的异常是精神分裂症中最常见的一些。
从主要为欧洲血统的受影响和未受影响的个体中获得结构(n = 370)和扩散(n = 465)磁共振成像数据。检查了 SNP rs4281084、rs12155594 及其组合等位基因负荷对侧脑室体积、各向异性分数(FA)以及轴向(AD)和径向(RD)扩散的影响。额外的探索性分析评估了 NRG1 对整个大脑的灰质体积、皮质厚度和表面积的影响。
精神分裂症发病年龄 ⩽25 岁且 NRG1 风险等位基因负荷 ⩾3 的个体右侧(最多 50%,p 调整 = 0.01)和左侧(最多 45%,p 调整 = 0.05)侧脑室体积明显大于负荷小于 3 的个体。此外,无论发病年龄和病例状态如何,携带 3 个或更多风险等位基因的个体与携带少于 3 个风险等位基因的个体相比,额叶皮质的 FA 显著降低,RD 升高但 AD 稳定。
我们的研究结果建立在越来越多的研究支持 NRG1 基因内遗传变异的功能重要性的基础上,并补充了先前的研究结果,这些结果表明 rs4281084 和 rs12155594 SNP 是精神病转化的标志物。
