Regulation of human affective responses by anterior cingulate and limbic μ-opioid neurotransmission

Background: Human affective responses appear to be regulated by limbic and paralimbic circuits. However, much less is known about the neurochemical systems engaged in this regulation. The mu-opioid neurotransmitter system is distributed in, and thought to regulate the function of, brain regions centrally implicated in affective processing. Objective: To examine the involvement of mu-opioid neuretransmission in the regulation of affective states in healthy human volunteers. Design: Measures of mu-opioid receptor availability in vivo were obtained with positron emission tomography and the mu-opioid receptor selective rachotracer [C-11]carfen-tanil during a neutral state and during a sustained sadness state. Subtraction analyses of the binding potential maps were then performed within subjects, between conditions, on a voxel-by-voxel basis. Setting: Imaging center at a university medical center Participants: Fourteen healthy female volunteers. Intervention: Sustained neutral and sadness states, randomized and counterbalanced in order, elicited by the cued recall of an autobiographical event associated with that emotion. Main Outcome Measures: Changes in mu-opioid receptor availability and negative and positive affect ratings between conditions. Increases or reductions in the in vivo receptor measure reflect deactivation or activation of neuro transmitter release, respectively. Results: The sustained sadness condition was associated with a statistically significant deactivation in mu-opioid neuro transmission in the rostral anterior cingulate, ventral pallidum, amygdala, and inferior temporal cortex. This deactivation was reflected by increases in mu-opioid receptor availability in vivo. The deactivation of mu-opioid neuro transmission in the rostral anterior cingulate, ventral pallidum, and amygdala was correlated with the increases in negative affect ratings and the reductions in positive affect ratings during the sustained sadness state. Conclusions: These data demonstrate dynamic changes in mu-opioid neuro transmission in response to an experimentally induced negative affective state. The direction and localization of these responses confirms the role of the mu-opioid receptor system in the physiological regulation of affective experiences in humans.