Max-Planck Institute of Psychiatry, Munich, Germany.
Mol Psychiatry. 2011 Jan;16(1):97-107. doi: 10.1038/mp.2009.102. Epub 2009 Sep 29.
Dyslexia is one of the most common learning disorders affecting about 5% of all school-aged children. It has been shown that event-related potential measurements reveal differences between dyslexic children and age-matched controls. This holds particularly true for mismatch negativity (MMN), which reflects automatic speech deviance processing and is altered in dyslexic children. We performed a whole-genome association analysis in 200 dyslexic children, focusing on MMN measurements. We identified rs4234898, a marker located on chromosome 4q32.1, to be significantly associated with the late MMN component. This association could be replicated in an independent second sample of 186 dyslexic children, reaching genome-wide significance in the combined sample (P = 5.14e-08). We also found an association between the late MMN component and a two-marker haplotype of rs4234898 and rs11100040, one of its neighboring single nucleotide polymorphisms (SNPs). In the combined sample, this marker combination withstands correction for multiple testing (P = 6.71e-08). Both SNPs lie in a region devoid of any protein-coding genes; however, they both show significant association with mRNA-expression levels of SLC2A3 on chromosome 12, the predominant facilitative glucose transporter in neurons. Our results suggest a possible trans-regulation effect on SLC2A3, which might lead to glucose deficits in dyslexic children and could explain their attenuated MMN in passive listening tasks.
阅读障碍是影响约 5%学龄儿童的最常见学习障碍之一。研究表明,事件相关电位测量揭示了阅读障碍儿童与年龄匹配的对照组之间的差异。这在失匹配负波(MMN)中尤其如此,MMN 反映了自动语音偏差处理,并且在阅读障碍儿童中发生改变。我们在 200 名阅读障碍儿童中进行了全基因组关联分析,重点关注 MMN 测量。我们确定了位于 4 号染色体 4q32.1 上的 rs4234898 标志物与晚期 MMN 成分显著相关。这种关联可以在另一个独立的 186 名阅读障碍儿童样本中得到复制,在合并样本中达到全基因组显著性(P = 5.14e-08)。我们还发现晚期 MMN 成分与 rs4234898 和 rs11100040 的两个标记单倍型之间存在关联,rs11100040 是其附近的单核苷酸多态性(SNP)之一。在合并样本中,该标记组合可抵抗多重测试校正(P = 6.71e-08)。这两个 SNP 都位于没有任何编码蛋白基因的区域;然而,它们都与染色体 12 上 SLC2A3 的 mRNA 表达水平显著相关,SLC2A3 是神经元中主要的易化葡萄糖转运体。我们的结果表明,SLC2A3 可能存在转录调控效应,这可能导致阅读障碍儿童的葡萄糖不足,并解释他们在被动听力任务中 MMN 减弱的原因。
