Substantial role of rare inherited variation in individuals with developmental disorders

Kaitlin E. Samocha, V. Kartik Chundru, Jack M. Fu, Eugene J. Gardner, Petr Danecek, Emilie M. Wigdor, Daniel S. Malawsky, Sarah J. Lindsay, Patrick Campbell, Tarjinder Singh, Ruth Y. Eberhardt, Giuseppe Gallone, Caroline F. Wright, Hilary C. Martin, Helen V. Firth, Matthew E. Hurles
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Abstract

While the role of de novo and recessively-inherited coding variation in risk for rare developmental disorders (DDs) has been well established, the contribution of damaging variation dominantly-inherited from parents is less explored. Here, we investigated the contribution of rare coding variants to DDs by analyzing 13,452 individuals with DDs, 18,613 of their family members, and 3,943 controls using a combination of family-based and case/control analyses. In line with previous studies of other neuropsychiatric traits, we found a significant burden of rare (allele frequency < 1×10-5) predicted loss-of-function (pLoF) and damaging missense variants, the vast majority of which are inherited from apparently unaffected parents. These predominantly inherited burdens are strongest in DD-associated genes or those intolerant of pLoF variation in the general population, however we estimate that ∼10% of the excess of these variants in DD cases is found within the DD-associated genes, implying many more risk loci are yet to be identified. We found similar, but attenuated, burdens when comparing the unaffected parents of individuals with DDs to controls, indicating that parents have elevated risk of DDs due to these rare variants, which are overtransmitted to their affected children. We estimate that 6-8.5% of the population attributable risk for DDs are due to rare pLoF variants in those genes intolerant of pLoF variation in the general population. Finally, we apply a Bayesian framework to combine evidence from these analyses of rare, mostly-inherited variants with prior de novo mutation burden analyses to highlight an additional 25 candidate DD- associated genes for further follow up.
罕见遗传变异在发育障碍患者中的重要作用
虽然新发编码变异和隐性遗传编码变异在罕见发育障碍(DDs)风险中的作用已被充分证实,但对父母显性遗传的损伤性变异的贡献却探讨较少。在此,我们采用基于家族的分析和病例/对照分析相结合的方法,对 13,452 名发育障碍患者、18,613 名其家庭成员和 3,943 名对照者进行了分析,从而研究了罕见编码变异对发育障碍的影响。与之前对其他神经精神特质的研究结果一致,我们发现罕见(等位基因频率为1×10-5)的预测功能缺失(pLoF)和损伤性错义变异负担沉重,其中绝大多数变异是从明显未受影响的父母那里遗传而来。这些主要的遗传负担在 DD 相关基因或一般人群中不耐受 pLoF 变异的基因中最为严重,但我们估计,DD 病例中过量的这些变异中有 10% 是在 DD 相关基因中发现的,这意味着还有更多的风险位点有待确定。我们发现,与对照组相比,DD患者未受影响的父母也有类似的负担,但负担有所减轻,这表明父母患DD的风险因这些罕见变异而升高,而这些变异又过度传递给了他们的患儿。我们估计,6-8.5% 的 DDs 人口可归因风险是由于普通人群中不耐受 pLoF 变异的基因中的罕见 pLoF 变异造成的。最后,我们应用贝叶斯框架,将这些罕见、多为遗传变异的分析证据与先前的从头突变负荷分析结合起来,突出了另外 25 个与 DD 相关的候选基因,以便进行进一步的跟踪研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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