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OXTR DNA methylation moderates the developmental calibration of neural reward sensitivity.

Marlen Z GonzalezKelly L WroblewskiJoseph P AllenJames A CoanJessica J Connelly
Published in: Developmental psychobiology (2020)
The Adaptive Calibration Model of Stress Responsivity (ACM) suggests that developmental experiences predictably tune biological systems to meet the demands of the environment. Particularly important is the calibration of reward systems. Using a longitudinal sample (N = 184) followed since adolescence, this study models the dimensions of early life stress and their effects on epigenetic modification of the oxytocin receptor gene (OXTR) and individual differences in neural response to reward anticipation. We first created a latent variable model of developmental context using measures collected when participants were 13 years old. As adults, two subsets of participants completed a reward anticipation fMRI paradigm (N = 82) and agreed to have their blood assayed for (OXTR) DNA methylation (N = 112) at two CpG sites. Three latent constructs of developmental context emerged: Neighborhood Harshness, Family Harshness, and Abuse and Disorder. Greater OXTR DNA methylation at CpG sites -924 and -934 blunted the association between greater Neighborhood Harshness and increased neural activation in caudate in anticipation of rewards. Interaction effects were also found outside of reward-related areas for all three latent constructs. Results indicate an epigenetically derived differential susceptibility model whereby high methylation coincides with decreased association between developmental environment and neural reward anticipation.
Keyphrases
  • dna methylation
  • genome wide
  • gene expression
  • early life
  • prefrontal cortex
  • copy number
  • physical activity
  • mental health
  • depressive symptoms
  • low cost
  • heat stress
  • binding protein