Effects of lidocaine on adult zebrafish behavior and brain acetylcholinesterase following peripheral and systemic administration.

Highlights • Lidocaine evoked sedative effect in adult zebrafish at 10 mg/L applied systemically. • Lidocaine caused hypolocomotor effect at 4% applied peripherally. • Lateral line is important for driving adult zebrafish locomotion. • Lidocaine decrease brain AChE activity. • Zebrafish sensitivity to lidocaine supports their growing value for CNS drug screening. Abstract Lidocaine is a voltage-gated Na+ channel blocker, commonly used as a fast-acting local and general anesthetic. Lidocaine also has central action, affecting behavior both clinically and in animal models. Adult zebrafish are rapidly becoming a critical novel model organism in translational neuroscience research. Here, we examine the effects of acute peripheral (lateral line application, 4%) and systemic (water immersion, 1, 5 and 10 mg/L) administration of lidocaine on adult zebrafish behavior tested in the novel tank test. Overall, the drug evoked hypolocomotor effect when applied systemically (at 10 mg/L) and peripherally. Peripheral lidocaine also reduced top exploration in the novel tank test (vs. sham), suggesting anxiogenic-like effect of the lateral line blockage, Our findings show the importance of the lateral line system in driving adult zebrafish locomotion, and suggest sedative-like effects of systemic lidocaine in aduld zebrafish. In addition, reflecting the role of central cholinergic contribution in lidocaine action, brain acetylcholinesterase (AChE) activity was lower following peripheral and systemic administration of lidocaine at behaviorally active doses. Collectively, our data support the effects of lidocaine on behavioral responses in zebrafish, and reinforce the growing utility of this aquatic model to screen various CNS drugs. [ABSTRACT FROM AUTHOR]