Gene-Environment Interactions for Cortical Development and Schizophrenia

皮质发育和精神分裂症的基因-环境相互作用

• 批准号: 8515785
• 负责人: AKIRA SAWA
• 金额: $ 200.2万
• 依托单位: JOHNS HOPKINS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-07-30 至 2016-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8515785
• 关键词: Address; Adult; Affect; Area; Behavioral; Biological; Biological Markers; Brain; Complement Activation; Defect; Development; Disease; Early Intervention; Early identification; Environmental Risk Factor; Epidemiologic Studies; Genetic; Genetic Predisposition to Disease; Genetic Risk; Goals; Lead; Mediating; Mental disorders; Molecular; Molecular Profiling; Molecular Target; Mood Disorders; Neurons; Pathology; Pathway interactions; Patients; Pre-Clinical Model; Process; Research; Role; Schizophrenia; TNFRSF5 gene; Toxoplasmosis; base; behavior influence; endophenotype; frontal lobe; gene environment interaction; genetic variant; human tissue; immune activation; neurodevelopment; novel; novel therapeutics; postnatal; prenatal

Adult brain function and behavior are influenced by neuronal network formation during development. Consequently, disturbances of brain development may underlie the pathology of adult mental disorders, such as schizophrenia (SZ) and mood disorders. Consistent with this notion, genetic susceptibility factors for these disorders that have been recently indentified, including Disrupted-in-Schizophrenia-1 (DISC1) and PCM1, have roles during neurodevelopment and are likely to cooperate, forming molecular "pathways." Meanwhile, epidemiological studies have indicated that many environmental factors contribute to schizophrenia during neurodevelopment. P50 Schizophrenia Research Center at Johns Hopkins, therefore, is to address the key question of how defects of cortical development elicited by combinations of genetic and environmental risk factors lead to molecular, histological, and behavioral deficits associated with the frontal cortex in adulthood, which are relevant to SZ. Based on our preliminary studies, we hypothesize that DISC1 and its interactors are useful genetic probes for this study. Accordingly, the four major aims of this entire center are as follows: 1) to clarify the mechanisms whereby several different combinations of DISC1 and interactors (e.g., Karilin-7, PCM1, RPGRIP1L, CRMP2, nNOS, and NDEL1) mediate distinct processes during neurodevelopment, which in turn affect postnatal brain maturation and result in deficits of the frontal cortex and behavioral abnormalities relevant to SZ; 2) to determine how environmental factors relevant to SZ (prenatal immune activation, postnatal activation of complement cascade, and postnatal infection of Toxoplasma Gondii) influence genetic vulnerability associated with DISCI, which eventually contribute to the deficits of the frontal cortex and behavioral abnormalities relevant to SZ; 3) to identify molecular targets for possible biomarkers of SZ and SZ-associated endophenotypes by comparing altered expression profiles in preclinical models and human tissues; 4) to identify rare genetic variants associated with SZ and/or some endophenotypes associated with SZ by pinpointing novel candidates for genetic sequencing from biological studies. In this center, 6 projects and 2 cores will collaborate to achieve these scientific goals.

成年人的大脑功能和行为受到发育过程中神经元网络形成的影响。因此，大脑发育障碍可能是成人精神障碍，如精神分裂症（SZ）和情绪障碍的病理基础。与这一观点相一致的是，最近发现的这些疾病的遗传易感性因素，包括分裂症1型（DISC 1）和PCM 1，在神经发育过程中发挥作用，并可能相互合作，形成分子“通路”。“同时，流行病学研究表明，在神经发育过程中，许多环境因素会导致精神分裂症。因此，约翰霍普金斯的P50精神分裂症研究中心要解决的关键问题是，由遗传和环境风险因素的组合引起的皮质发育缺陷如何导致与成年期额叶皮质相关的分子、组织学和行为缺陷，这些缺陷与SZ相关。基于我们的初步研究，我们假设DISC 1及其相互作用物是本研究的有用的遗传探针。因此，整个中心的四个主要目标如下：1）阐明DISC 1和相互作用物的几种不同组合（例如，Karilin-7、PCM 1、RPGRIP 1 L、CRMP 2、nNOS和NDEL 1）在神经发育过程中介导不同的过程，这反过来影响出生后的脑成熟并导致与SZ相关的额叶皮质缺陷和行为异常; 2）确定环境因素与深圳的相关性（产前免疫激活，出生后补体级联激活，和出生后感染弓形虫）影响与DISCI相关的遗传易感性，最终导致与SZ相关的额叶皮质缺陷和行为异常; 3）通过比较临床前模型和人体组织中改变的表达谱来鉴定SZ和SZ相关内表型的可能生物标志物的分子靶标; 4）通过从生物学研究中精确定位用于基因测序的新候选物来鉴定与SZ相关的罕见遗传变体和/或与SZ相关的一些内表型。在这个中心，6个项目和2个核心将合作实现这些科学目标。