The neuropeptide S (NPS) system has been suggested to contribute to the pathogenesis of anxiety. In order to further characterize the cognitive-neurophysiological relevance of neuropeptide S in the etiology of anxiety, the influence of a functional neuropeptide S receptor gene (NPSR1) variant on response inhibition and error monitoring was investigated under consideration of the dimensional phenotype of anxiety sensitivity (AS). In a sample of N=97 healthy probands, event-related potential (ERP) measurement using a modified Flanker task was applied allowing for a distinct neurophysiological examination of processes related to response inhibition (Nogo-N2, Nogo-P3) and error monitoring (Ne/ERN). All subjects were genotyped for the functional NPSR1 A/T (Asn(107)Ile) variant (rs324981) and characterized for anxiety sensitivity using the Anxiety Sensitivity Index (ASI). Carriers of the NPSR1 T allele displayed intensified response inhibition (Nogo-P3) and error monitoring (Ne/ERN), which was in both cases paralleled by the behavioral data. Furthermore, anxiety sensitivity was found to be higher in NPSR1 T allele carriers and to correlate with Nogo-P3 and Ne/ERN. A mediation analysis revealed the ERN to mediate the effect between NPSR1 genotype and anxiety sensitivity. In summary, the more active NPSR1 T allele may confer enhanced response inhibition and increased error monitoring and might drive particularly error monitoring as a neurophysiological endophenotype of anxiety as reflected by increased anxiety sensitivity. These findings further corroborate a major role of the neuropeptide S system in the pathogenesis of anxiety and suggest a potentially beneficial use of therapeutic agents targeting the NPS system in anxiety disorders.
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