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Mu-opioid receptor knockout on Foxp2-expressing neurons leads to reduced aversion-resistant reward seeking.

Harrison M CarvourCharlotte A E G RoemerD'Erick P UnderwoodEdith PadillaOscar SandovalMegan RobertsonMallory MillerNatella ParsadanyanThomas W PerryAnna K Radke
Published in: bioRxiv : the preprint server for biology (2023)
Mu-opioid receptors (MORs) in the amygdala and striatum are important in addictive and rewarding behaviors. Foxp2 is a marker of intercalated (ITC) cells in the amygdala and a subset of striatal medium spiny neurons (MSNs), both of which express MORs in wild-type mice. For the current series of studies, we characterized the behavior of mice with genetic deletion of the MOR gene Oprm1 in Foxp2-expressing neurons (Foxp2-Cre/Oprm1 fl/fl ). Male and female Foxp2-Cre/Oprm1 fl/fl mice were generated and heterozygous Cre+ (knockout) and homozygous Cre-(control) animals were tested for aversion-resistant alcohol consumption using an intermittent access (IA) task, operant responding for a sucrose reward, conditioned place aversion (CPA) to morphine withdrawal, and locomotor sensitization to morphine. In IA, mice with the MOR-knockout were more sensitive to quinine-adulterated ethanol (EtOH) and less aversion-resistant, as they decreased EtOH consumption from baseline at all quinine concentrations, while control animals did not. In operant conditioning, Cre+ mice similarly exhibited less aversion-resistant reward seeking than Cre-mice when sucrose was adulterated with quinine. For CPA, both control and MOR-knockout mice demonstrated withdrawal-induced aversion. For locomotor sensitization, Cre+ mice demonstrated decreased locomotion following morphine injection compared to Cre-mice. The results of these studies suggest that MOR expression on Foxp2-expressing neurons is not necessary for rewarded behaviors or expression of opioid withdrawal but may be involved in aversion-resistance.
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