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Yi-Ting Chiu

Department of Pharmacology, University of North Carolina at Chapel Hill, NC 27599, USA.

6 papers in the library · 142 citations · publishing 2021-2026

Papers

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

Scientific Reports September 5, 2021 Ramona M. Rodriguiz, Vineet Nadkarni, Christopher R. Means et al. 92 citations

Lysergic acid diethylamide (LSD) produces psychedelic effects through the 5-HT2A serotonin receptor, which activates both Gq and β-arrestin signaling pathways. Using mice lacking either β-arrestin1 or β-arrestin2, researchers found that LSD stimulated motor activities and psychedelic-like behaviors—including head twitches, grooming, retrograde walking, and nose-poking—in normal mice and those missing β-arrestin1, but not in mice missing β-arrestin2. The 5-HT2A antagonist MDL100907 blocked these effects. LSD also disrupted prepulse inhibition in normal and β-arrestin1-knockout mice, but not in β-arrestin2-knockouts. These findings indicate that LSD's psychedelic actions require β-arrestin2 signaling.

A suite of engineered mice for interrogating psychedelic drug actions

bioRxiv (Cold Spring Harbor Laboratory) September 26, 2023 Yi-Ting Chiu, Wei Wang, Pierre Llorach et al. 15 citations preprint

Psychedelic drugs such as LSD and psilocybin show promise as treatments for depression, anxiety, PTSD, migraine, and cluster headaches by activating the 5-HT2A receptor (HTR2A). Researchers engineered several new mouse lines to study the role of HTR2A and the neurons that express it. One line allows visualization of the receptor and identification of HTR2A-containing cells, providing a detailed anatomical map. Another line has a humanized version of the receptor, and a third enables targeted genetic manipulation. The mice exhibited expected behavioral responses to psychedelics, confirming their usefulness. Electrophysiology showed that serotonin increases firing of specific pyramidal neurons through HTR2A, consistent with the receptor's location on the cell surface. These tools will help clarify how psychedelics work at molecular, cellular, and behavioral levels.

Psychedelic compounds directly excite 5-HT 2A Layer 5 Pyramidal Neurons in the Prefrontal Cortex through a 5-HT 2A Gq -mediated activation mechanism

bioRxiv (Cold Spring Harbor Laboratory) November 15, 2022 Gavin P. Schmitz, Yi-Ting Chiu, Gabriele M. König et al. 15 citations preprint

Psilocin, the active compound in psilocybin mushrooms, activates serotonin 2A receptors (5-HT2ARs) in the prefrontal cortex (PFC), but its specific effects on PFC neurons were unclear. Using slice electrophysiology in mice, researchers found that psilocin application onto layer 5 pyramidal neurons in the prelimbic PFC produced variable firing changes (increase, decrease, or no change) in unspecific neurons. However, in neurons identified as expressing 5-HT2ARs, psilocin consistently increased firing without altering synaptic transmission. The results demonstrate that psilocin evokes strong, 5-HT2AR- and Gαq-dependent firing changes in the PFC, offering insights into how psychedelics affect a brain region key to their therapeutic actions.

Psychedelic compounds directly excite 5-HT2A layer V medial prefrontal cortex neurons through 5-HT2A Gq activation

Translational Psychiatry October 6, 2025 Gavin P. Schmitz, Yi-Ting Chiu, Mia L. Foglesong et al. 13 citations

Psilocybin's active metabolite psilocin increases activity in the medial prefrontal cortex (mPFC), a brain region rich in 5-HT2A receptors. A specific population of neurons in the prelimbic/anterior cingulate mPFC that express these receptors becomes more excitable and fires more in response to psilocin and a selective 5-HT2A receptor compound, effects dependent on both the receptor and Gα q signaling. A novel non-hallucinogenic psychedelic compound produced similar effects. These results point to membrane-bound 5-HT2A receptors and intracellular Gα q signaling as potential therapeutic targets for psychedelic-associated plasticity.

LSD’s effects are differentially modulated in arrestin knockout mice

bioRxiv Preprint Server February 4, 2021 Ramona M. Rodriguiz, Vineet Nadkarni, Christopher R. Means et al. 7 citations preprint

Lysergic acid diethylamide (LSD) produces its psychedelic effects through the 5-HT2A serotonin receptor, which activates two signaling pathways: Gq and β-arrestin. Using mice lacking either β-arrestin1 or β-arrestin2, the authors show that LSD's psychedelic-like behaviors—head twitches, retrograde walking, nose poking, and disrupted prepulse inhibition—require β-arrestin2, not β-arrestin1. LSD also affects motor activity and body temperature in a β-arrestin-dependent manner. The 5-HT2A antagonist MDL100907 blocks these effects in wild-type mice, but in β-arrestin1-knockouts, haloperidol is needed to restore prepulse inhibition. These findings indicate that LSD's diverse behavioral actions are mediated through distinct β-arrestin subtypes, with β-arrestin2 necessary for its psychedelic-like effects.

No evidence for direct physical interaction of 5-HT 2A -mGluR2 receptors in vitro or in vivo

bioRxiv (Cold Spring Harbor Laboratory) June 30, 2026 Blake A Fordyce, Yi-Ting Chiu, Nicholas A. Wright et al.

Activation of mGluR2, the primary presynaptic autoreceptor for glutamate in the brain, attenuates the behavioral and electrophysiological effects of psychedelics. The mechanisms behind this are debated, with two competing hypotheses: direct actions via mGluR2/5-HT2A heterodimers, or presynaptic inhibition of glutamate release. In mice expressing tagged receptors, mGluR2 agonist pretreatment reduced the head twitch response induced by the psychedelic DOI. Multiple orthogonal in vivo and in vitro approaches found no evidence for receptor colocalization or oligomerization under basal or agonist-exposed conditions, nor for mGluR2-mediated modulation of 5-HT2A ligand binding. The findings support models where mGluR2 signaling modulates 5-HT2A receptor activity in layer V pyramidal neurons rather than requiring mGluR2/5-HT2A multimers.