Research

Publications
Title: Changes in aggression and locomotor behaviors in response to zinc is accompanied by brain cell heterogeneity and metabolic and circadian dysregulation of the brain-liver axis
First author: Yu, Fan; Luo, Hong-Rui; Cui, Xue-Fan; Wu, Yi-Jie; Li, Jian-Lin; Feng, Wen-Rong; Tang, Yong-Kai; Su, Sheng-Yan; Xiao, Jun; Hou, Zhi-Shuai; Xu, Pao
Journal: ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
Years: 2022
Volume / issue: /
DOI: 10.1016/j.ecoenv.2022.114303
Abstract: Zinc is an essential nutrient for life, but over-accumulation can result in toxicity. Anthropogenic activities can increase zinc concentrations in aquatic environments (e.g., to-0.46-1.00 mg/L), which are above the safe level of 0.1 mg/L. We investigated the behavior and physiology of zebrafish (Danio rerio) in response to environment-related exposure to zinc chloride at 0.0 (Ctrl), 1.0 (ZnCl2-low) and 1.5 (ZnCl2-high) mg/L for 6 weeks (the zinc conversion ratio of zinc chloride is-0.48 and the nominal (measured) values were: Ctrl, 0 (-0.01); ZnCl2-low, 0.48 (-0.51); ZnCl2-high, 0.72 (-0.69) mg/L). Low-zinc exposure resulted in significantly increased locomotion and fast moving behaviors, while high-zinc exposure resulted in significantly increased aggression and freezing frequency. Single cell RNA-seq of neurons, astrocytes, and oligodendrocytes of the brain revealed expression of genes related to ion transport, neuron generation, and immunomodulation that were heterogeneously regulated by zinc exposure. Astrocyte-induced central nervous system inflammation potentially integrated neurotoxicity and behavior. Integrated analyses of brain and hepatic transcriptional signatures showed that genes (and pathways) dysregulated by zinc were associated with sensory functions, circadian rhythm, glucose and lipid metabolism, and amyloid beta-protein clearance. Our results showed that environment-related zinc contamination can be heterogeneously toxic to brain cells and can disturb coordination of brain-liver physiology. This may disrupt neurobehavior and cause a neurodegeneration-like syndrome in adult zebrafish.