A Novel Assay Allowing Drug Self-Administration, Extinction, and Reinstatement Testing in Head-Restrained Mice

• Main Authors: Bobadilla, A.-C (Author), Bowen, C.W (Author), Doncheck, E.M (Author), Grant, R.I (Author), Green, L.M (Author), Kalivas, P.W (Author), Otis, J.M (Author), Romanova, E.V (Author), Siegler, P.N (Author), Trujillo-Pisanty, I. (Author), Vollmer, K.M (Author), Winston, K.T (Author)
• Format: Article
• Language: English
• Published: Frontiers Media S.A. 2021
• Subjects: addiction; animal experiment; animal model; Article; association; behavior; brain function; calcium imaging; cocaine; controlled study; diamorphine; drug dependence; drug self administration; drug use; ensembles; female; longitudinal tracking of individual cells; male; mouse; multiphoton microscopy; nerve cell plasticity; nonhuman; physical restraint; physiological stress; psychological extinction; reinstatement; relapse; reward; sex difference; sucrose; two-photon (2P)
• Online Access: View Fulltext in Publisher

 Multiphoton microscopy is one of several new technologies providing unprecedented insight into the activity dynamics and function of neural circuits. Unfortunately, some of these technologies require experimentation in head-restrained animals, limiting the behavioral repertoire that can be integrated and studied. This issue is especially evident in drug addiction research, as no laboratories have coupled multiphoton microscopy with simultaneous intravenous drug self-administration, a behavioral paradigm that has predictive validity for treatment outcomes and abuse liability. Here, we describe a new experimental assay wherein head-restrained mice will press an active lever, but not inactive lever, for intravenous delivery of heroin or cocaine. Similar to freely moving animals, we find that lever pressing is suppressed through daily extinction training and subsequently reinstated through the presentation of relapse-provoking triggers (drug-associative cues, the drug itself, and stressors). Finally, we show that head-restrained mice will show similar patterns of behavior for oral delivery of a sucrose reward, a common control used for drug self-administration experiments. Overall, these data demonstrate the feasibility of combining drug self-administration experiments with technologies that require head-restraint, such as multiphoton imaging. The assay described could be replicated by interested labs with readily available materials to aid in identifying the neural underpinnings of substance use disorder. Copyright © 2021 Vollmer, Doncheck, Grant, Winston, Romanova, Bowen, Siegler, Green, Bobadilla, Trujillo-Pisanty, Kalivas and Otis.