Psilocybin mitigates chronic behavioral and neurobiological alterations in a rat model of recurrent intimate partner violence-related brain injury.
Josh Allen, Mujun Sun, Tamara L Baker, Shannon Dames, Pamela Kryskow, Brian R Christie, Stuart J Mcdonald, Sandy R Shultz
Molecular psychiatry April 1, 2026 Peer reviewed DOI: 10.1038/s41380-025-03329-x via PubMed
Summary
Psilocybin shows promise in improving outcomes related to intimate partner violence-related brain injuries (IPV-BI) in a rat model. The treatment improved behavioral and cognitive functions, including increased sucrose preference and better performance in memory tasks. Notably, psilocybin reduced microglial cell counts and preserved reelin-positive cells in the hippocampus compared to saline-treated rats. These findings indicate that psilocybin may enhance neuroplasticity and reduce inflammation associated with IPV-BI.
Study at a glance
| Design | experimental study |
|---|---|
| Population | female rats subjected to recurrent mild traumatic brain injury and non-fatal strangulation |
| Key finding | Psilocybin improved behavioral and cognitive deficits induced by IPV-BI in rats, suggesting its potential therapeutic benefits. |
Abstract
Intimate partner violence (IPV) poses a significant medical concern, predominantly affecting females. IPV-related brain injuries (IPV-BI), such as mild traumatic brain injury (mTBI) and non-fatal strangulation (NFS), sustained during physical attacks are common and often repetitive. Chronic neurobehavioral sequalae from IPV-BI are associated with neuroinflammation and impaired neuroplasticity, and effective treatment options are scarce, particularly in the context of IPV. However, psilocybin, a 5-HT2A receptor agonist with therapeutic potential in psychiatric disorders that share overlapping pathophysiology as BI, is a promising candidate. This study evaluated psilocybin's effects on behavior, cognition, and neurobiology in a novel rat model of recurrent IPV-BI. Female rats underwent daily mTBI (lateral impact) followed by NFS (90 s) for five days, followed by 16 weeks of recovery. Rats then received a single intraperitoneal injection of psilocybin (1 mg/kg) or saline, with behavioral testing 24 h later. To investigate whether psilocybin's effects were 5-HT2A receptor dependent, additional rats received pre-treatment with selective 5-HT2A receptor antagonist M100907 (1.5 mg/kg) one hour before psilocybin administration. Psilocybin recovered mTBI+NFS-induced abnormalities in the elevated plus-maze, increased sucrose preference when administered without M100907, and improved reversal learning in the water maze and spatial memory in the Y-maze. In the dorsal hippocampus, mTBI+NFS rats treated with saline, but not those treated with psilocybin, exhibited an increased number of microglial cells in the molecular layer and fewer reelin-positive cells in the subgranular zone. These findings suggest psilocybin's antidepressant, pro-cognitive, anti-inflammatory, and neuroplasticity-enhancing effects hold promise for improving chronic IPV-BI outcomes and highlight the critical role of 5-HT2A receptors in mediating psilocybin's therapeutic benefits.