Bio-Protocol (Apr 2020)
Examining Cocaine Conditioning Place Preference in Mice
Abstract
A key component of combating substance use disorders is understanding the neural mechanisms that support drug reward. Tasks such as self-administration assess the reinforcing properties of a drug using a learned behavior but require numerous training sessions and surgery. In comparison, the conditioned place preference (CPP) task assesses reward with little training, without costly surgeries, and confounds that accompany the use of anesthesia or pain-relieving drugs. The CPP task contains three phases: pretest, conditioning, and posttest. During the pretest, mice are allowed to explore a three-compartment apparatus. The two outer compartments contain unique olfactory, tactile, and visual cues whereas the middle compartment is used as an entrance and exit for the mice on test days. During conditioning, mice receive cocaine before being confined to one of the outer compartments. The following day, mice are given saline then confined to the other outer compartment. These pairings are then repeated once. At posttest, mice are permitted to freely explore all compartments in a drug-free state while the time spent in each compartment is recorded. A CPP score is calculated for both the pretest and posttest by comparing the time spent in the cocaine-paired and saline-paired compartments. Enhancements in the CPP score from the pretest to the posttest serve as a measure of the rewarding property of the cocaine. This task offers several notable advantages: 1) the simultaneous recording of locomotor activity and reward, which may utilize different neural mechanisms, 2) the three-compartment CPP setup removes the bias that can be observed in a two-compartment design, and 3) use of multimodal cues support the acquisition of a robust preference in a variety of mouse strains.