Ketamine Alters Specific Gene Expression Profiles by Transcriptome-Wide Responses in a Ketamine-Induced Schizophrenia-Like Mouse Model.
Molecular neurobiology – February 24, 2025
Source: PubMed
Summary
Ketamine abuse can trigger psychiatric disorders by altering gene activity in the brain. Scientists discovered that blocking specific brain receptors prevents ketamine's harmful effects on behavior and memory. By analyzing the transcriptome (complete gene activity) in mice, researchers identified key genes like Rgs4 that change after ketamine exposure. Blood tests revealed promising markers that could help detect ketamine abuse and its mental health impacts.
Abstract
Psychotic disorder is a significant consequence of ketamine abuse. However, the molecular mechanisms and biomarkers for this psychotic disorder and associated long-term cognitive impairment remain unclear. To investigate the behavioral changes and comprehensive gene expression alterations in mice following ketamine administration, we employed behavioral testing and RNA sequencing (RNA-seq). We further examined the role of dopamine D1 receptor (Drd1) activity in mediating ketamine-induced psychotic-like behavior and its impact on the transcriptome in these mice. Our findings indicated that blocking Drd1 activity with an antagonist mitigated ketamine-induced schizophrenia-like behaviors, while activating Drd1 with an agonist partially replicated these symptoms. Transcriptome analysis of the mouse hippocampus using RNA-seq revealed an enrichment of differentially expressed genes implicated in the GTPase activation pathway. Specifically, both Rgs4 and Gnai3 were involved in ketamine-induced psychiatric effects. Furthermore, we observed that the mRNA expression of Gnai3 was decreased in peripheral blood and the serum levels of eotaxin-2 were elevated two weeks after ketamine administration. These changes suggest that Gnai3 and eotaxin-2 may serve as potential biomarkers for ketamine abuse. These results demonstrate the crucial role of Drd1 activity in a mouse model of ketamine-induced schizophrenia-like disorder. The altered expression of Gnai3 in peripheral blood and the elevated levels of cytokine eotaxin-2 in serum indicate their potential as peripheral blood biomarkers for ketamine abuse in mice.