Meyer Gabriela Pessin, da Silva Bruna Santos, Bandeira Cibele Edom, Tavares Maria Eduarda Araujo, Cupertino Renata Basso, Oliveira Eduarda Pereira, Müller Diana, Kappel Djenifer B, Teche Stefania Pigatto, Vitola Eduardo Schneider, Rohde Luis Augusto, Rovaris Diego Luiz, Grevet Eugenio Horacio, Bau Claiton Henrique Dotto
Graduate Program in Genetics and Molecular Biology, Universidade Federal do Rio Grande do Sul, Porto Alegre, Brazil.
ADHD Outpatient Program, Clinical Research Center, Hospital de Clínicas de Porto Alegre, Porto Alegre, Brazil.
Eur Arch Psychiatry Clin Neurosci. 2023 Feb;273(1):15-24. doi: 10.1007/s00406-022-01388-7. Epub 2022 Mar 12.
The Forkhead box P2 (FOXP2) encodes for a transcription factor with a broad role in embryonic development. It is especially represented among GWAS hits for neurodevelopmental disorders and related traits, including attention-deficit/hyperactivity disorder (ADHD), autism spectrum disorder, neuroticism, and risk-taking behaviors. While several functional studies are underway to understand the consequences of FOXP2 variation, this study aims to expand previous findings to clinically and genetically related phenotypes and neuroanatomical features among subjects with ADHD. The sample included 407 adults with ADHD and 463 controls. Genotyping was performed on the Infinium PsychArray-24 BeadChip, and the FOXP2 gene region was extracted. A gene-wide approach was adopted to evaluate the combined effects of FOXP2 variants (n = 311) on ADHD status, severity, comorbidities, and personality traits. Independent risk variants presenting potential functional effects were further tested for association with cortical surface areas in a subsample of cases (n = 87). The gene-wide analyses within the ADHD sample showed a significant association of the FOXP2 gene with harm avoidance (P = 0.001; P = 0.015) and nominal associations with hyperactivity symptoms (P = 0.026; P = 0.130) and antisocial personality disorder (P = 0.026; P = 0.130). An insertion/deletion variant (rs79622555) located downstream of FOXP2 was associated with the three outcomes and nominally with the surface area of superior parietal and anterior cingulate cortices. Our results extend and refine previous GWAS findings pointing to a role of FOXP2 in several neurodevelopment-related phenotypes, mainly those involving underlying symptomatic domains of self-regulation and inhibitory control. Taken together, the available evidence may constitute promising insights into the puzzle of the FOXP2-related pathophysiology.
叉头框蛋白P2(FOXP2)编码一种在胚胎发育中具有广泛作用的转录因子。它在神经发育障碍及相关特征(包括注意力缺陷多动障碍(ADHD)、自闭症谱系障碍、神经质和冒险行为)的全基因组关联研究(GWAS)结果中尤为突出。虽然目前正在进行多项功能研究以了解FOXP2变异的后果,但本研究旨在将先前的研究结果扩展至ADHD患者的临床和遗传相关表型以及神经解剖特征。样本包括407名患有ADHD的成年人和463名对照。在Illumina PsychArray - 24 BeadChip上进行基因分型,并提取FOXP2基因区域。采用全基因方法评估FOXP2变异(n = 311)对ADHD状态、严重程度、共病情况和人格特质的综合影响。在一部分病例样本(n = 87)中,对呈现潜在功能效应的独立风险变异进一步检测其与皮质表面积的关联。ADHD样本中的全基因分析显示,FOXP2基因与回避伤害显著相关(P = 0.001;P = 0.015),与多动症状(P = 0.026;P = 0.130)和反社会人格障碍存在名义上的关联(P = 0.026;P = 0.130)。位于FOXP2下游的一个插入/缺失变异(rs79622555)与这三个结果相关,并且与顶上叶和前扣带回皮质的表面积存在名义上的关联。我们的结果扩展并完善了先前的GWAS研究结果,表明FOXP2在几种与神经发育相关的表型中发挥作用,主要是那些涉及自我调节和抑制控制的潜在症状领域。综上所述,现有证据可能为FOXP2相关病理生理学之谜提供有前景的见解。
