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LSD-stimulated behaviors in mice require β-arrestin 2 but not β-arrestin 1

Ramona M. Rodriguiz, Vineet Nadkarni, Christopher R. Means, Vladimir M. Pogorelov, Yi-Ting Chiu, Bryan L. Roth, William C. Wetsel

Scientific Reports September 5, 2021 Peer reviewed DOI: 10.1038/s41598-021-96736-3 via DOAJ

Summary

LSD's psychedelic effects, such as motor stimulation and head twitches, depend on the βArr2 signaling pathway. In experiments with different mouse models, LSD produced significant effects in wild-type and βArr1 knockout mice but had minimal impact on βArr2 knockout mice. The findings indicate that the activation of βArr2 is crucial for LSD's psychedelic actions, while the 5-HT2AR antagonist MDL100907 can block these effects.

Study at a glance

Population mice, specifically wild-type and various knockout strains
Key finding LSD's psychedelic drug-like actions appear to require βArr2.

Abstract

Abstract Recent evidence suggests that psychedelic drugs can exert beneficial effects on anxiety, depression, and ethanol and nicotine abuse in humans. However, their hallucinogenic side-effects often preclude their clinical use. Lysergic acid diethylamide (LSD) is a prototypical hallucinogen and its psychedelic actions are exerted through the 5-HT2A serotonin receptor (5-HT2AR). 5-HT2AR activation stimulates Gq- and β-arrestin- (βArr) mediated signaling. To separate these signaling modalities, we have used βArr1 and βArr2 mice. We find that LSD stimulates motor activities to similar extents in WT and βArr1-KO mice, without effects in βArr2-KOs. LSD robustly stimulates many surrogates of psychedelic drug actions including head twitches, grooming, retrograde walking, and nose-poking in WT and βArr1-KO animals. By contrast, in βArr2-KO mice head twitch responses are low with LSD and this psychedelic is without effects on other surrogates. The 5-HT2AR antagonist MDL100907 (MDL) blocks the LSD effects. LSD also disrupts prepulse inhibition (PPI) in WT and βArr1-KOs, but not in βArr2-KOs. MDL restores LSD-mediated disruption of PPI in WT mice; haloperidol is required for normalization of PPI in βArr1-KOs. Collectively, these results reveal that LSD’s psychedelic drug-like actions appear to require βArr2.

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