精神分裂症与女性初产年龄之间基因重叠的证据

Divya Mehta, Felix C Tropf, Jacob Gratten, Andrew Bakshi, Zhihong Zhu, Silviu-Alin Bacanu, Gibran Hemani, Patrik K E Magnusson, Nicola Barban, Tõnu Esko, Andres Metspalu, Harold Snieder, Bryan J Mowry, Kenneth S Kendler, Jian Yang, Peter M Visscher, John J McGrath, Melinda C Mills, Naomi R Wray, S Hong Lee, Ole A Andreassen, Elvira Bramon, Richard Bruggeman, Joseph D Buxbaum, Murray J Cairns, Rita M Cantor, C Robert Cloninger, David Cohen, Benedicto Crespo-Facorro, Ariel Darvasi, Lynn E DeLisi, Timothy Dinan, Srdjan Djurovic, Gary Donohoe, Elodie Drapeau, Valentina Escott-Price, Nelson B Freimer, Lyudmila Georgieva, Lieuwe de Haan, Frans A Henskens, Inge Joa, Antonio Julià, Andrey Khrunin, Bernard Lerer, Svetlana Limborska, Carmel M Loughland, Milan Macek, Patrik K E Magnusson, Sara Marsal, Robert W McCarley, Andrew M McIntosh, Andrew McQuillin, Bela Melegh, Patricia T Michie, Derek W Morris, Kieran C Murphy, Inez Myin-Germeys, Ann Olincy, Jim Van Os, Christos Pantelis, Danielle Posthuma, Digby Quested, Ulrich Schall, Rodney J Scott, Larry J Seidman, Draga Toncheva, Paul A Tooney, John Waddington, Daniel R Weinberger, Mark Weiser, Jing Qin Wu
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引用次数: 0

摘要

重要性:2014年,McGrath等人最近发表的一项全国数据研究显示,后代患精神分裂症(SCZ)的风险增加与父母年龄过早和过晚有关,符合U型关系。然而,目前仍不清楚子女的风险是由于与父母年龄相关的社会心理因素造成的,还是由于那些患精神分裂症风险较高的人倾向于在较早或较晚的年龄生育子女:目的:利用具有遗传信息但独立确定的数据集,确定SCZ与首次生育年龄(AFB)之间是否存在遗传关联:这项调查使用了多个独立的全基因组关联研究数据集。SCZ 样本由精神病基因组学联合会第二阶段全基因组关联研究中的 18 957 例 SCZ 病例和 22 673 例对照组成,AFB 样本由以下 4 个社区队列中的 12 247 名进行了 AFB 测定的基因分型女性组成:爱沙尼亚(塔尔图大学爱沙尼亚基因组中心生物库)、荷兰(LifeLines 队列研究)、瑞典(瑞典双胞胎登记处)和英国(TwinsUK)。AFB社区样本中每位女性的精神分裂症遗传风险是利用SCZ全基因组关联研究推断出的遗传效应估算得出的:我们根据已发表的描述丹麦后代中母亲年龄与精神分裂症风险之间关系的多项式函数,测试了精神分裂症遗传风险是否能显著预测响应变量。我们在这些函数中用 AFB 代替了母亲的年龄,其中一个函数根据父亲的年龄进行了校正,结果发现,未调整父亲年龄的模型的拟合效果更好:我们观察到,在社区队列中,SCZ 风险与 AFB 之间呈 U 型关系,这与之前报道的在未对父亲年龄进行调整的情况下,后代的 SCZ 风险与母亲年龄之间的关系一致。我们证实,SCZ 风险概况得分可显著预测响应变量(决定系数 R2 = 1.1E-03,P = 4.1E-04),反映了 2014 年 McGrath 等人发表的母亲年龄与后代 SCZ 风险之间的关系:本研究提供的证据表明,与SCZ风险相关的遗传因素与与AFB相关的遗传因素之间存在显著重叠。有报道称,与母亲年龄增加相关的SCZ风险可以用父亲的年龄来解释,而在年长男性的种系中更频繁出现的新突变是潜在的致病机制。如果如本文所述并在今后的研究中得到证实,高龄母亲患 SCZ 的遗传风险也会增加,那么这种解释可能需要修改。
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Evidence for Genetic Overlap Between Schizophrenia and Age at First Birth in Women.

Importance: A recently published study of national data by McGrath et al in 2014 showed increased risk of schizophrenia (SCZ) in offspring associated with both early and delayed parental age, consistent with a U-shaped relationship. However, it remains unclear if the risk to the child is due to psychosocial factors associated with parental age or if those at higher risk for SCZ tend to have children at an earlier or later age.

Objective: To determine if there is a genetic association between SCZ and age at first birth (AFB) using genetically informative but independently ascertained data sets.

Design, setting, and participants: This investigation used multiple independent genome-wide association study data sets. The SCZ sample comprised 18 957 SCZ cases and 22 673 controls in a genome-wide association study from the second phase of the Psychiatric Genomics Consortium, and the AFB sample comprised 12 247 genotyped women measured for AFB from the following 4 community cohorts: Estonia (Estonian Genome Center Biobank, University of Tartu), the Netherlands (LifeLines Cohort Study), Sweden (Swedish Twin Registry), and the United Kingdom (TwinsUK). Schizophrenia genetic risk for each woman in the AFB community sample was estimated using genetic effects inferred from the SCZ genome-wide association study.

Main outcomes and measures: We tested if SCZ genetic risk was a significant predictor of response variables based on published polynomial functions that described the relationship between maternal age and SCZ risk in offspring in Denmark. We substituted AFB for maternal age in these functions, one of which was corrected for the age of the father, and found that the fit was superior for the model without adjustment for the father's age.

Results: We observed a U-shaped relationship between SCZ risk and AFB in the community cohorts, consistent with the previously reported relationship between SCZ risk in offspring and maternal age when not adjusted for the age of the father. We confirmed that SCZ risk profile scores significantly predicted the response variables (coefficient of determination R2 = 1.1E-03, P = 4.1E-04), reflecting the published relationship between maternal age and SCZ risk in offspring by McGrath et al in 2014.

Conclusions and relevance: This study provides evidence for a significant overlap between genetic factors associated with risk of SCZ and genetic factors associated with AFB. It has been reported that SCZ risk associated with increased maternal age is explained by the age of the father and that de novo mutations that occur more frequently in the germline of older men are the underlying causal mechanism. This explanation may need to be revised if, as suggested herein and if replicated in future studies, there is also increased genetic risk of SCZ in older mothers.

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