Drug self-administration in head-restrained mice for simultaneous multiphoton imaging
Autor: | Ana-Clara Bobadilla, Christopher W. Bowen, Preston N. Siegler, Kion T. Winston, Elizabeth M. Doncheck, Kelsey M. Vollmer, Peter W. Kalivas, Roger I. Grant, Ivan Trujillo-Pisanty, Elizaveta V. Romanova, James M. Otis |
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Rok vydání: | 2020 |
Předmět: |
Drug
Drugs of abuse Dendritic spine Computer science Addiction media_common.quotation_subject chemistry.chemical_compound Multiphoton fluorescence microscope chemistry Biological neural network Premovement neuronal activity Self-administration Neurotransmitter Neuroscience Multiphoton imaging media_common |
DOI: | 10.1101/2020.10.25.354209 |
Popis: | Multiphoton microscopy is one of several new technologies providing unprecedented insight into the activity dynamics and function of neural circuits. Unfortunately, many of these technologies require experimentation in head-restrained animals, greatly limiting the behavioral repertoire that can be studied with each approach. This issue is especially evident in drug addiction research, as no laboratories have coupled multiphoton microscopy with simultaneous intravenous drug self-administration, the gold standard of behavioral paradigms for investigating the neural mechanisms of drug addiction. Such experiments would be transformative for addiction research as one could measure or perturb an array of behavior and drug-related adaptations in precisely defined neural circuit elements over time, including but not limited to dendritic spine plasticity, neurotransmitter release, and neuronal activity. Here, we describe a new experimental assay wherein mice self-administer drugs of abuse while head-restrained, allowing for simultaneous multiphoton imaging. We demonstrate that this approach enables longitudinal tracking of activity in single neurons from the onset of drug use to relapse. The assay can be easily replicated by interested labs for relatively little cost with readily available materials and can provide unprecedented insight into the neural underpinnings of substance use disorder. |
Databáze: | OpenAIRE |
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