Gláucia Chiyoko Akutagava-Martins scite author profile

Attention-deficit/hyperactivity disorder (ADHD) is a complex and heterogeneous disorder, affecting individuals across the life cycle. Although its etiology is not yet completely understood, genetics plays a substantial role. Pharmacological treatment is considered effective and safe for children and adults, but there is considerable inter-individual variability among patients regarding response to medication, required doses, and adverse events. We present here a systematic review of the literature on ADHD pharmacogenetics to provide a critical discussion of the existent findings, new approaches, limitations, and recommendations for future research. Our main findings are: first, the number of studies continues to grow, making ADHD one of the mental health areas with more pharmacogenetic studies. Second, there has been a focus shift on ADHD pharmacogenetic studies in the last years. There is an increasing number of studies assessing gene-gene and gene-environment interactions, using genomewide association approaches, neuroimaging, and assessing pharmacokinetic properties. Third and most importantly, the heterogeneity in methodological strategies employed by different studies remains impressive. The question whether pharmacogenetics studies of ADHD will improve clinical management by shifting from trial-and-error approach to a pharmacological regimen that takes into account the individual variability remains unanswered.

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LPHN3 and attention‐deficit/hyperactivity disorder: a susceptibility and pharmacogenetic study

Bruxel

Salatino-Oliveira

Akutagava-Martins

et al. 2015

Genes Brain and Behavior

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Latrophilin 3 (LPHN3) is a brain-specific member of the G-protein coupled receptor family associated to both attention-deficit/hyperactivity disorder (ADHD) genetic susceptibility and methylphenidate (MPH) pharmacogenetics. Interactions of LPHN3 variants with variants harbored in the 11q chromosome improve the prediction of ADHD development and medication response. The aim of this study was to evaluate the role of LPHN3 variants in childhood ADHD susceptibility and treatment response in a naturalistic clinical cohort. The association between LPHN3 and ADHD was evaluated in 523 children and adolescents with ADHD and 132 controls. In the pharmacogenetic study, 172 children with ADHD were investigated. The primary outcome measure was the parent-rated Swanson, Nolan and Pelham Scale -version IV applied at baseline, first and third months of treatment with MPH. The results reported herein suggest the CGC haplotype derived from single nucleotide polymorphisms (SNPs) rs6813183, rs1355368 and rs734644 as an ADHD risk haplotype (P = 0.02, OR = 1.46). Although non-significant after multiple testing correction, its interaction with the 11q chromosome SNP rs965560 slightly increases risk (P = 0.03, OR = 1.55). Homozygous individuals for the CGC haplotype showed faster response to MPH treatment as a significant interaction effect between CGC haplotype and treatment over time was observed (P < 0.001). Homozygous individuals for the GT haplotype derived from SNPs rs6551665 and rs1947275 showed a nominally significant interaction with treatment over time (P = 0.04). Our findings replicate previous findings reporting that LPHN3 confers ADHD susceptibility, and moderates MPH treatment response in children and adolescents with ADHD.

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Genetics of attention-deficit/hyperactivity disorder: an update

Akutagava-Martins

Rohde

Hutz

2016

Expert Review of Neurotherapeutics

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Attention-deficit/hyperactivity disorder (ADHD) is a common neurodevelopmental disorder affecting children, adolescents, and adults. The prevalence is estimated at 5 to 7% of school-aged children and 2.5 to 5% of adults. The phenotype is complex and heterogeneous, presenting variable clinical features, developmental course, and outcome. The genetic susceptibility to ADHD is attributed to both common and rare variants from a broad range of genes related mainly to neurotransmission and neurodevelopment pathways. However, it has been difficult to identify the genetic risk variants that account for the high heritability of this disorder. In this paper, we present recent findings from molecular genetics studies on both child and adult ADHD. Challenges and future directions for ADHD genetic studies are reviewed and discussed.

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Why is there selective subcortical vulnerability in ADHD? Clues from postmortem brain gene expression data

et al. 2017

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Sub-cortical volumetric differences were associated with attention-deficit/hyperactivity disorder (ADHD) in a recent multi-site, mega-analysis of 1713 ADHD persons and 1529 controls. As there was a wide range of effect sizes among the sub-cortical volumes, it is possible that selective neuronal vulnerability has a role in these volumetric losses. To address this possibility, we used data from Allen Brain Atlas to investigate variability in gene expression profiles between subcortical regions of typically developing brains. We tested the hypothesis that the expression of genes in a set of curated ADHD candidate genes and five a priori selected, biological pathways would be associated with the Enhancing NeuroImaging Genetics through Meta-Analysis (ENIGMA) findings. Across the subcortical regions studied by ENIGMA, gene expression profiles for three pathways were significantly correlated with ADHD-associated volumetric reductions: apoptosis, oxidative stress and autophagy. These correlations were strong and significant for children with ADHD, but not for adults. Although preliminary, these data suggest that variability of structural brain anomalies in ADHD can be explained, in part, by the differential vulnerability of these regions to mechanisms mediating apoptosis, oxidative stress and autophagy.

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Genetics of attention-deficit/hyperactivity disorder: current findings and future directions

Akutagava-Martins

Salatino-Oliveira

Kieling

et al. 2013

Expert Review of Neurotherapeutics

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Attention-deficit/hyperactivity disorder (ADHD) is a neurodevelopmental disorder affecting 5.29% of children worldwide. It presents a heterogeneous clinical expression, and both environmental and genetic factors are involved in the etiology. Despite high heritability estimates, identification of genes that confer susceptibility to ADHD has been a slow and difficult process. The first genetic studies targeted dopaminergic genes, but the effects were small and only explained a small portion of ADHD heritability. Recent studies focus on the identification of novel genes and pathways that may underlie ADHD. The main goal of this review is to present evidence from genome-wide association, copy number variation and family-based studies of genetic susceptibility to ADHD. The challenges involved to disclose ADHD susceptibility genes will be reviewed in order to provide directions for future studies.

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