Department of Psychiatry, Graduate School of Medicine, Nagoya University, Nagoya, Japan.
Schizophr Bull. 2012 May;38(3):552-60. doi: 10.1093/schbul/sbq118. Epub 2010 Nov 1.
Our genome-wide association study of schizophrenia found association signals at the Kalirin gene (KALRN) and EPH receptor B1 gene (EPHB1) in a Japanese population. The importance of these synaptogenic pathway genes in schizophrenia is gaining independent supports. Although there has been growing interest in rare (<1%) missense mutations as potential contributors to the unexplained heritability of schizophrenia, there are no population-based studies targeting rare (<1%) coding mutations with a larger effect size (eg, OR >1.5) in KALRN or EPHB1.
The present study design consisted of 3 phases. At the discovery phase, we conducted resequencing analyses for all exon regions of KALRN and EPHB1 using a DNA microarray-based method. Seventeen rare (<1%) missense mutations were discovered in the first sample set (320 schizophrenic patients). After the prioritization phase based on frequencies in the second sample set (729 cases and 562 controls), we performed association analyses for each selected mutation using the third sample set (1511 cases and 1517 controls), along with a combined association analysis across all selected mutations. In KALRN, we detected a significant association between schizophrenia and P2255T (OR = 2.09, corrected P = .048, 1 tailed); this was supported in the combined association analysis (OR = 2.07, corrected P = .006, 1 tailed). We found no evidence of association of EPHB1 with schizophrenia. In silico analysis indicated the functional relevance of these rare missense mutations.
We provide evidence that multiple rare (<1%) missense mutations in KALRN may be genetic risk factors for schizophrenia.
我们对精神分裂症的全基因组关联研究在一个日本人群中发现了 Kalirin 基因(KALRN)和 Eph 受体 B1 基因(EPHB1)的关联信号。这些突触发生途径基因在精神分裂症中的重要性得到了独立的支持。尽管人们越来越关注罕见(<1%)错义突变作为精神分裂症未解释遗传率的潜在贡献者,但没有针对 Kalrin 或 EphB1 中具有较大效应大小(例如,OR>1.5)的罕见(<1%)编码突变的基于人群的研究。
本研究设计包括 3 个阶段。在发现阶段,我们使用基于 DNA 微阵列的方法对 KALRN 和 EPHB1 的所有外显子区域进行了重测序分析。在第一个样本集中发现了 17 个罕见(<1%)错义突变(320 例精神分裂症患者)。在基于第二个样本集(729 例病例和 562 例对照)的频率进行优先级划分阶段后,我们使用第三个样本集(1511 例病例和 1517 例对照)对每个选定的突变进行了关联分析,并对所有选定的突变进行了合并关联分析。在 KALRN 中,我们检测到 P2255T 与精神分裂症之间存在显著关联(OR=2.09,校正 P=0.048,1 尾);在合并关联分析中也得到了支持(OR=2.07,校正 P=0.006,1 尾)。我们没有发现 EPHB1 与精神分裂症有关的证据。计算机分析表明这些罕见错义突变具有功能相关性。
我们提供的证据表明,KALRN 中的多个罕见(<1%)错义突变可能是精神分裂症的遗传风险因素。