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A diencephalic circuit in rats for opioid analgesia but not positive reinforcement

Maggie W. Waung, Kayla A. Maanum, Thomas J. Cirino, Joseph R. Driscoll, Christopher OʼBrien, Svetlana Bryant, Kasra Mansourian, Marisela Morales, David J. Barker, Elyssa B. Margolis

2022Nature Communications20 citationsDOIOpen Access PDF

Abstract

Mu opioid receptor (MOR) agonists are potent analgesics, but also cause sedation, respiratory depression, and addiction risk. The epithalamic lateral habenula (LHb) signals aversive states including pain, and here we found that it is a potent site for MOR-agonist analgesia-like responses in rats. Importantly, LHb MOR activation is not reinforcing in the absence of noxious input. The LHb receives excitatory inputs from multiple sites including the ventral tegmental area, lateral hypothalamus, entopeduncular nucleus, and the lateral preoptic area of the hypothalamus (LPO). Here we report that LHb-projecting glutamatergic LPO neurons are excited by noxious stimulation and are preferentially inhibited by MOR selective agonists. Critically, optogenetic stimulation of LHb-projecting LPO neurons produces an aversive state that is relieved by LHb MOR activation, and optogenetic inhibition of LHb-projecting LPO neurons relieves the aversiveness of ongoing pain.

Topics & Concepts

OptogeneticsGlutamatergicNeuroscienceLateral hypothalamusVentral tegmental areaOpioidHabenulaStimulationAgonistExcitatory postsynaptic potentialHypothalamusPreoptic areaDiencephalonNoxious stimulusChemistryGlutamate receptorMedicineCentral nervous systemInternal medicineBiologyReceptorNociceptionDopamineInhibitory postsynaptic potentialDopaminergicSleep and Wakefulness ResearchNeuroscience and Neuropharmacology ResearchPain Mechanisms and Treatments
A diencephalic circuit in rats for opioid analgesia but not positive reinforcement | Litcius