Lithium attenuates ketamine-induced long-term neurotoxicity through DISC1-mediated GSK-3β/β-catenin and ERK/CREB pathways.

Toxicology letters  – April 01, 2025

Source: PubMed

Summary

While ketamine is vital in pediatric anesthesia, its repeated use can harm developing brains. Researchers found that lithium can protect against ketamine's toxic effects on nerve cells. The study revealed that lithium activates protective pathways in the brain, specifically the GSK-3β/β-catenin and ERK/CREB systems, by boosting DISC1 protein levels. This discovery offers a promising way to make ketamine safer for young patients.

Abstract

Ketamine, an antagonist of N-methyl-D-aspartate receptor, is extensively employed in pediatric anesthesia. Multiple studies have shown that repeated ketamine exposure induces neuroapoptosis, synaptic changes and cognitive deficits during neurodevelopment. Therefore, it is essential to elucidate the mechanisms of ketamine-induced neurotoxicity and develop therapies to mitigate its harmful effects. Here, we investigated the role of disrupted in Schizophrenia 1 (DISC1) in ketamine-induced long-term neurotoxicity through a ketamine-exposed neuroapoptosis model. Neonatal rats received 2-5 intraperitoneal injections of ketamine (20 mg/kg b.w.) at 90 min intervals. Another cohort of pups received five intraperitoneal injections of ketamine (20 mg/kg×5 b.w.) with or without lithium (120 mg/kg×5 b.w.) at 90 min intervals over 6 h. Neuroapoptosis, DISC1-associated proteins expression in rats treated with ketamine, lithium, or a combination of both were detected, and the cognitive function of adolescent rats was evaluated by Morris water maze test. The length of dendrites and axons of primary neurons treated with lithium and ketamine were further measured. Results showed that ketamine time-dependently downregulated the levels of DISC1, pGSK-3β, β-catenin, pERK, pCREB and PSD95 in neonatal rats. Lithium could ameliorate neuroapoptosis, cognitive deficits and neurite growth inhibition triggered by ketamine. Mechanistically, lithium upregulated the levels of DISC1, PSD95 and GSK-3β/β-catenin and ERK/CREB signaling-related proteins. Consequently, lithium mitigated ketamine-induced long-term neurotoxicity by elevating DISC1 level and activating the GSK-3β/β-catenin and ERK/CREB signaling pathways.

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