精神分裂症的内表型:深入挖掘鉴定遗传机制。

Journal of psychiatry and brain science Pub Date : 2019-01-01 Epub Date: 2019-03-13 DOI:10.20900/jpbs.20190005
Tiffany A Greenwood, Andrew Shutes-David, Debby W Tsuang
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引用次数: 27

摘要

精神分裂症(SZ)是一种严重的精神障碍,具有高度遗传性,在普通人群中很常见。SZ的遗传异质性很大,除了环境因素外,还包括常见、罕见和新生变异。大型全基因组关联研究已经检测到许多与SZ相关的变异,但这些变异影响风险的途径在很大程度上仍然未知。SZ在临床上也是异质性的,患者在疾病和治疗过程中表现出广泛的缺陷和症状严重程度,这使得识别风险变异的工作变得复杂。然而,潜在的脑功能障碍形成了一个更稳定的特征标记,定量的神经认知和神经生理内表型可能能够客观地测量。与疾病相比,这些内表型不太可能具有异质性,并为检测与SZ诊断相关的基因之间的风险变异和潜在途径提供了神经生物学背景。此外,许多内表型可转化为动物模型系统,从而可以直接评估神经回路功能障碍和神经生物学底物。我们回顾了一些最有前途的SZ内表型,包括脉冲前抑制、错配阴性、眼动抗扫视、字母数字测序和连续性能测试。我们还强调了最近来自大型财团的发现,这些发现表明基因,特别是在神经调节蛋白和谷氨酸途径中,在这些内表型中的潜在作用。虽然内表型需要额外的时间和精力来评估,但它们提供的对潜在神经生物学的洞察可能最终揭示SZ的潜在遗传结构,并提出新的治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Endophenotypes in Schizophrenia: Digging Deeper to Identify Genetic Mechanisms.

Endophenotypes in Schizophrenia: Digging Deeper to Identify Genetic Mechanisms.

Endophenotypes in Schizophrenia: Digging Deeper to Identify Genetic Mechanisms.

Endophenotypes in Schizophrenia: Digging Deeper to Identify Genetic Mechanisms.

Schizophrenia (SZ) is a severe psychotic disorder that is highly heritable and common in the general population. The genetic heterogeneity of SZ is substantial, with contributions from common, rare, and de novo variants, in addition to environmental factors. Large genome-wide association studies have detected many variants that are associated with SZ, yet the pathways by which these variants influence risk remain largely unknown. SZ is also clinically heterogeneous, with patients exhibiting a broad range of deficits and symptom severity that vary over the course of illness and treatment, which has complicated efforts to identify risk variants. However, the underlying brain dysfunction forms a more stable trait marker that quantitative neurocognitive and neurophysiological endophenotypes may be able to objectively measure. These endophenotypes are less likely to be heterogeneous than the disorder and provide a neurobiological context to detect risk variants and underlying pathways among genes associated with SZ diagnosis. Furthermore, many endophenotypes are translational into animal model systems, allowing for direct evaluation of the neural circuit dysfunctions and neurobiological substrates. We review a selection of the most promising SZ endophenotypes, including prepulse inhibition, mismatch negativity, oculomotor antisaccade, letter-number sequencing, and continuous performance tests. We also highlight recent findings from large consortia that suggest the potential role of genes, particularly in the neuregulin and glutamate pathways, in several of these endophenotypes. Although endophenotypes require additional time and effort to assess, the insight into the underlying neurobiology that they provide may ultimately reveal the underlying genetic architecture for SZ and suggest novel treatment targets.

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