The BDNF gene Val66Met polymorphism as a modifier of psychiatric disorder susceptibility: progress and controversy

Notaras, Michael; Hill, Rachel Anne; Buuse, Maarten van den

doi:10.1038/mp.2015.27

Cited by 259 publications

(234 citation statements)

References 256 publications

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“…In humans, the BDNF gene has a functional single‐nucleotide polymorphism, a Valine to Methionine substitution at codon 66 (Val66Met), which leads to impairments in intracellular trafficking and activity‐dependent secretion (Chen et al., 2004; Egan et al., 2003), and to various morphological changes in brain areas such as the hippocampus, prefrontal cortex, and the amygdala (reviewed in Notaras, Hill, & van den Buuse, 2015). The BDNF gene has been shown to interact with various environmental factors in affecting behavioral outcomes (Drury et al., 2012; Hayden et al., 2010; Willoughby, Mills‐Koonce, Propper, & Waschbusch, 2013).…”

Section: Introductionmentioning

confidence: 99%

Parental brain‐derived neurotrophic factor genotype, child prosociality, and their interaction as predictors of parents’ warmth

Avinun

Knafo‐Noam

2017

Brain and Behavior

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BackgroundParental warmth has been associated with various child behaviors, from effortful control to callous‐unemotional traits. Factors that have been shown to affect parental warmth include heritability and child behavior. However, there is limited knowledge about which specific genes are involved, how they interact with child behavior, how they affect differential parenting, and how they affect fathers. We examined what affects paternal and maternal warmth by focusing on the child's prosocial behavior and parents’ genotype, specifically a Valine to Methionine substitution at codon 66 in the brain‐derived neurotrophic factor (BDNF) gene.MethodsData was available from a sample of 6.5 year‐old twins, consisting of 369 mothers and 663 children and 255 fathers and 458 children. Self‐reports were used to assess mothers’ and fathers’ warmth. Child prosociality was assessed with the other‐parent report and experimental assessments.ResultsMothers’ warmth was not affected by their BDNF genotype, neither as a main effect nor in an interaction with child prosociality. Fathers with the Met allele scored higher on warmth. Additionally, there was a significant interaction between fathers’ BDNF genotype and child prosociality. For fathers with the Met allele there was a positive association between warmth and child prosociality. Conversely, for fathers with the Val/Val genotype there was no association between warmth and child prosociality. Results were repeated longitudinally in a subsample with data on age 8–9 years. A direct within family analysis showed that fathers with the Met allele were more likely than Val/Val carriers to exhibit differential parenting toward twins who differed in their prosocial behavior. The same pattern of findings was found with mother‐rated and experimentally assessed prosociality.ConclusionsThese results shed light on the genetic and environmental underpinnings of paternal behavior and differential parenting.

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Section: Introductionmentioning

confidence: 99%

Parental brain‐derived neurotrophic factor genotype, child prosociality, and their interaction as predictors of parents’ warmth

Avinun

Knafo‐Noam

2017

Brain and Behavior

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“…Firstly, the grouping of Met66 allele carriers (i.e. Met66Met and Val66Met genotypes), as is frequently carried out in studies in which the rate of the Met66Met genotype is relatively low, such as in Caucasian samples (Gatt et al, 2009; Lehto, Maestu, Kiive, Veidebaum, & Harro, 2016; Nedic et al, 2013; Pivac et al, 2009), may introduce a bias in which a main effect of genotype is not detected due to the exclusion of the Met66Met genotype in analyses (Notaras et al, 2015). Secondly, the Val66Met and Met66Met genotypes, respectively, may have dissimilar effects (Hong et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…Our findings highlight the importance of assessing gene-environment interactions in the assessment of genetic effects on anxiety-related phenotypes associated with anxiety disorders. Recommendations for future research include replication in larger samples of mixed race participants in which population stratification is corrected for and in which the Met66Met genotype is better represented (Notaras et al, 2015). Furthermore, variation across the BDNF gene would be useful to consider (Mandelman & Grigorenko, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…Brain-derived neurotrophic factor (BDNF) is a secretory protein in the neurotrophin family known to influence the proliferation, survival, differentiation, repair and regulation of synaptic plasticity of neuronal cells in the developing and adult brain (Bath & Lee, 2006; Chen et al, 2006; Martinowich, Manji, & Lu, 2007; Notaras, Hill, & van den Buuse, 2015). BDNF is widely expressed in the hippocampus and cerebral cortex (Hofer, Pagliusi, Hohn, Leibrock, & Barde, 1990; Huang & Reichardt, 2001) and enhances hippocampal long-term potentiation (Figurov, Pozzo-Miller, Olafsson, Wang, & Lu, 1996) associated with both memory and learning efficiency (Hariri et al, 2003; Yamada, Mizuno, & Nabeshima, 2002).…”

Section: Introductionmentioning

confidence: 99%

“…Compared with the Val66 allele, the Met66 allele is associated with a decrease in activity-dependent secretion of BDNF (Egan et al, 2003). BDNF has received attention due to its evident role in anxiety and mood disorders (Angelucci et al, 2014; Hemmings et al, 2008; Li, Chang, & Xiao, 2016; Martinowich et al, 2007; Molendijk et al, 2014; Suliman, Hemmings, & Seedat, 2013), although findings have been inconsistent across studies (Frustaci, Pozzi, Gianfagna, Manzoli, & Boccia, 2008; Hong, Liou, & Tsai, 2012; Lam, Cheng, Hong, & Tsai, 2004; Minelli et al, 2011; Notaras et al, 2015; Surtees et al, 2007; Wang et al, 2015). …”

Section: Introductionmentioning

confidence: 99%

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No gene-by-environment interaction of BDNF Val66Met polymorphism and childhood maltreatment on anxiety sensitivity in a mixed race adolescent sample

Martin

Hemmings

Kidd

et al. 2018

European Journal of Psychotraumatology

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Background: Anxiety disorders in youth are attributable to multiple causal mechanisms, comprising biological vulnerabilities, such as genetics and temperament, and unfavourable environmental influences, such as childhood maltreatment (CM).Objective: A gene-environment (G x E) interaction study was conducted to determine the interactive effect of the BDNF Val66Met polymorphism and CM to increase susceptibility to anxiety sensitivity (AS) in a sample of mixed race adolescents.Method: Participants (n = 308, mean age = 15.8 years) who were all secondary school students and who completed measures for AS and CM were genotyped for the BDNF Val66Met polymorphism. Hierarchical multiple regression analysis was conducted to assess G x E influences on AS. Age and gender were included in the models as covariates as age was significantly associated with AS total score (p < .05), and females had significantly higher AS scores than males (p < .05).Results: A main effect of CM on AS was evident (p < .05), however, no main effect of BDNF genotype on AS was observed (p > .05). A non-significant G x E effect on AS was revealed (p < .05).Conclusions: Our results suggest that CM does not have a moderating role in the relationship between the BDNF Val66Met genotype and the increased risk of anxiety-related phenotypes, such as AS. Given the exploratory nature of this study, findings require replication in larger samples and adjustment for population stratification to further explore the role of BDNF Val66Met and CM on AS in mixed race adolescents.

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Predicting the use of corporal punishment: Child aggression, parent religiosity, and the BDNF gene

Avinun

Davidov

Mankuta

et al. 2017

Aggressive Behavior

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Corporal punishment (CP) has been associated with deleterious child outcomes, highlighting the importance of understanding its underpinnings. Although several factors have been linked with parents' CP use, genetic influences on CP have rarely been studied, and an integrative view examining the interplay between different predictors of CP is missing. We focused on the separate and joint effects of religiosity, child aggression, parent's gender, and a valine (Val) to methionine (Met) substitution in the brain-derived neurotrophic factor (BDNF) gene. Data came from a twin sample (51% male, aged 6.5 years). We used mothers' and fathers' self-reports of CP and religiosity, and the other parent's report on child aggression. Complete data were available for 244 mothers and their 466 children, and for 217 fathers and their 409 children. The random split method was employed to examine replicability. For mothers, only the effect of religiosity appeared to replicate. For fathers, several effects predicting CP use replicated in both samples: child aggression, child sex, religiosity, and a three-way (GxExE) interaction implicating fathers' BDNF genotype, child aggression and religiosity. Religious fathers who carried the Met allele and had an aggressive child used CP more frequently; in contrast, secular fathers' CP use was not affected by their BDNF genotype or child aggression. Results were also repeated longitudinally in a subsample with age 8-9 data. Findings highlight the utility of a bio-ecological approach for studying CP use by shedding light on pertinent gene-environment interaction processes. Possible implications for intervention and public policy are discussed.

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The BDNF gene Val66Met polymorphism as a modifier of psychiatric disorder susceptibility: progress and controversy

Cited by 259 publications

References 256 publications

Parental brain‐derived neurotrophic factor genotype, child prosociality, and their interaction as predictors of parents’ warmth

Parental brain‐derived neurotrophic factor genotype, child prosociality, and their interaction as predictors of parents’ warmth

No gene-by-environment interaction of BDNF Val66Met polymorphism and childhood maltreatment on anxiety sensitivity in a mixed race adolescent sample

Predicting the use of corporal punishment: Child aggression, parent religiosity, and the BDNF gene

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