Paraventricular hypothalamic input to anterior cingulate cortex controls food preferences in chronic visceral pain mice

Abstract

Chronic visceral pain is frequently accompanied by changes in food preference. The paraventricular hypothalamus (PVH) and the anterior cingulate cortex (ACC) are well-known regions involved in pain processing and food intake. However, the underlying neural circuitry mechanisms remain unclear. Here, we showed that a circuit from cholecystokinin neurons in the PVH (PVH^CCK) projecting to glutamatergic neurons in the ACC (ACC^Glu) to regulate food preference in male mice with chronic visceral pain induced by neonatal colonic inflammation (NCI). The mice with chronic visceral pain preferred for sucrose when compared with control mice. Chemogenetic inhibition of the PVH^CCK to ACC^Glu circuit reduced chronic visceral pain and led to food preference switched from sucrose to intralipid, which was reversed by an injection of an agonist of CCKBRs in the ACC. Chemogenetic activation of PVH^CCK to ACC^Glu circuit increased visceral pain and resulted in food preference switched from intralipid to sucrose, which was reversed by an injection of an antagonist of cholecystokinin receptors (CCKBRs) in the ACC. Our study indicates that the PVH^CCK to ACC^Glu circuit encodes changes in food preference during chronic visceral pain. Intervention targeting this neural circuitry might be a potential therapeutic strategy for patients with chronic visceral pain.