Abstract
AbstractControl of operant behavior in mice represents a powerful technique for evaluating behavioral function, biobehavioral differences, and the impact of environmental and pharmacological stimuli. The present method provides a means for rapid behavioral assessments that contrasts with the many weeks or months required in most steady-state procedures. The use of mice in these tests has many advantages including the ability to evaluate transgenic animals. Effects of compounds on suppressed or punished responding are often used to predict anxiolytic efficacy in humans. In contrast to steady-state baselines that can take months to establish, the present method can deliver dose–response data within a few days. Mice are food deprived and placed in an experimental chamber with two nose poke holes. Every nose poke (FR1) produces a 20 mg food pellet. After 2 days of training, a drug or drug vehicle is administered, and the mice are exposed to a mixed FR1 (food), FR1 (food + shock) schedule in alternating, unsignaled periods of 4 and 10 min for three cycles. In the 10-min period, nose pokes produce both food plus brief electrification of the grid floor (0.5 mA for 100 ms); during the 4-min period, only food is delivered with each nose poke. Under these conditions, the introduction of shock can substantially decrease nose pokes during the 10-min punishment period without significantly affecting responding during the non-punishment periods. Results are shown that document the comparability of the drug effects in this procedure to that of other punishment procedures requiring protracted training. Importantly, the method has wide applicability in probing multiple aspects of murine behavior and behavioral differences such as acquisition and extinction of behavior, sensory differences, and memory.Key words Vogel conflict test Mouse Anxiety Anxiolytic Transgenic mice Operantresponse.
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