Abstract
Aberrant attentional biases to social stimuli have been implicated in a number of disorders including autism and social anxiety disorder. Oxytocin, a naturally-occurring mammalian hormone and neuromodulator involved in regulating social behavior, has been proposed to impact basic biological systems that facilitate the detection of and orientation to social information. Here, we investigate a role for naturally-occurring variability in the endogenous oxytocinergic system in regulating neural response during attention to social information. Participants performed a selective social attention task while undergoing fMRI, provided a blood sample for epigenetic analysis, and completed self-report measures of social functioning. We find that a functional epigenetic modification to the oxytocin receptor, OXTR methylation, is associated with increased neural response within and decreased functional coupling between regions of the salience and attentional control networks during selective social attention. We also show that subclinical variability in autistic and social anxiety traits moderates this epigenetic regulation of neural response. These data offer a mechanistic explanation to a growing literature associating social behavior and disorder with epigenetic modification to OXTR by suggesting that OXTR methylation reflects a decrease in the extent to which social information automatically captures attention. We highlight the importance that treatment efficacy be considered in relation to individual differences in molecular makeup, and that future studies aimed at uncovering biomarkers of disorder carefully consider measurement at both the biological and phenotypic level.
Highlights
Successful organisms must be able to detect and appropriately utilize important environmental cues
Individuals with higher OXTR methylation show greater recruitment of regions of the attentional control network when selectively attending to social information
Unlike many social-cognitive tasks in which healthy adults perform at ceiling, the selective social attention task is capable of generating significant variability in performance
Summary
Successful organisms must be able to detect and appropriately utilize important environmental cues. Stimulus detection and proper allocation of attentional resources rely upon the dynamic interplay between largescale brain networks, the salience and attentional control networks[1,2,3] These separable but interrelated systems are involved in both stimulus-driven attentional orienting, and top–down, cognitive control of attentional orienting, respectively[4,5]. All trials involved the simultaneous presentation of faces and houses, the key manipulation was that participants were asked to alternatively focus on either the faces or the Puglia et al Translational Psychiatry (2018)8:116 houses when performing the one-back task They found that individuals with ASD show increased neural response when selectively attending to faces, in right dorsolateral prefrontal cortex (DLPFC), a key node in the attentional control network[2]. The authors concluded that in neurotypical individuals, additional neural resources are required to ignore the social stimulus, whereas in the clinical population, attentional control mechanisms are instead required to discern the social stimulus in a complex visual display
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