Skip to content

Wen-Jun Shi

SCNU Environmental Research Institute, Guangdong Provincial Key Laboratory of Chemical Pollution and Environmental Safety & MOE Key Laboratory of Theoretical Chemistry of Environment, South China Normal University, Guangzhou 510006, China.

2 papers in the library · 12 citations · publishing 2024-2025

Papers

Effects of New Psychoactive Substance Esketamine on Behaviors and Transcription of Genes in Dopamine and GABA Pathways in Zebrafish Larvae.

Bulletin of environmental contamination and toxicology March 31, 2024 Si-Ying Li, Wen-Jun Shi, Dong-Dong Ma et al. 9 citations

Esketamine (ESK), the S-enantiomer of ketamine, alters behaviors and gene transcription in zebrafish larvae at environmentally relevant concentrations. At 12.4 ng L⁻¹, ESK reduced touch response at 48 hours post-fertilization and decreased swimming time and distance in the outer zone during light periods, suggesting reduced anxiety. ESK also increased transcription of dopamine pathway genes (th, ddc, drd1a, drd3, drd4a) and GABA pathway genes (slc6a1b, slc6a13, slc12a2). These results indicate that ESK can cause neurotoxicity in early-stage zebrafish by affecting heart rate, behaviors, and gene expression in dopamine and GABA pathways.

New Psychoactive Substance Esketamine Causes Endocrine-Disrupting Effects and Developmental Toxicity.

Environmental science & technology May 6, 2025 Si-Ying Li, Dongdong Ma, Wen-Jun Shi et al. 3 citations

Esketamine (ESK), a hallucinogenic new psychoactive substance found in surface waters worldwide, causes developmental toxicity and endocrine disruption in zebrafish. Zebrafish embryos exposed to low and medium concentrations (0.12 and 1.02 μg/L) showed increased embryo area, yolk sac size, and upregulated vitellogenin (vtg) gene expression, while the highest concentration (10.6 μg/L) produced opposite effects. After 14 days, ESK altered circadian rhythm, DNA repair, and estrogen signaling pathways, and elevated vitellogenin protein levels, consistent with its binding affinity for estrogen receptors. These findings indicate that environmentally relevant ESK concentrations pose ecological risks to fish.