Abstract

Gene-environment (GxE) interactions contribute to the development of many neuropsychiatric disorders. Tryptophan hydroxylase-2 (TPH2) synthesizes neuronal serotonin and is closely related to the hypothalamic-pituitary-adrenal (HPA) axis, while early life experience is a critical environmental factor programming the HPA axis response to stress. This retrospective study investigated GxE interaction at the TPH2 locus in rhesus monkeys. Twenty-eight adult, male rhesus monkeys of Indian origin, either mother-reared or peer-reared as infants, were involved in this study. These monkeys have been previously genotyped for the functional A2051C polymorphism in rhTPH2, and had been physiologically and behaviorally characterized. rhTPH2 A2051C exerted a significant main effect (CC>AA&AC) on the cerebrospinal fluid (CSF) level of 5-hydroxyindole-3-acetic acid (5-HIAA; F((1,14))=6.42, p=0.024), plasma cortisol level in the morning (F((1,18))=14.63, p=0.002) and cortisol response to ACTH challenge (F((1,17))=6.87, p=0.018), while the rearing experience showed a significant main effect (PR>MR) on CSF CRH (F((1,20))=11.66, p=0.003) and cage shaking behavior (F((1,27))=4.45, p=0.045). The effects of rhTPH2 A2051C on the afternoon cortisol level, plasma ACTH level, dexamethasone suppression of urinary cortisol excretion, and aggression were dependent upon the rearing experience. These results were not confounded by the functional C77G polymorphism in the mu-opioid receptor (MOR). The present study supports the hypothesis that rearing experience and rhTPH2 A2051C interact to influence central 5-HT metabolism, HPA axis function, and aggressive behaviors. Our findings strengthen the involvement of G x E interactions at the loci of serotonergic genes and the utility of the nonhuman primate to model G x E interactions in the development of human neuropsychiatric diseases.

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