Authors: Marion Nicole, Briggs Lily, Donar Andrew, Godin Brandon, LaCrosse Amber.
Cocaine is a psychostimulant that is one of the most widely used illicit drugs, particularly in America. Cocaine addiction is a chronic relapsing disease that is characterized by drug craving and loss of inhibitory control. Animal models of psychiatric diseases are essential to identify underlying neural circuitry and to test the effectiveness of novel pharmacotherapies to prevent relapse. Current research using animal models indicates that type 5 metabotropic glutamate receptors may be of particular importance to the onset and maintenance of cocaine addiction. This literature review provides a general overview of the glutamate system, and the animal models frequently used in the study of addiction and summarizes peer-reviewed research focused on cocaine-induced adaptations to the type 5 metabotropic glutamate receptors in mice. Cocaine administration in mouse models induces a range of neural changes in the brain, reflecting the neuroadaptations associated with cocaine addiction. Cocaine-induced adaptations to type 5 metabotropic glutamate receptor vary by brain region and by methodological constraints. Key neural changes that occur in the mouse brain following cocaine administration include adaptations in the dopaminergic and glutamatergic systems. The interplay between mGluR5 and the dopamine system plays a significant role in the neurobiological adaptations that drive cocaine addiction. Lastly, we cover the potential efficacy of targeting this receptor as a novel therapeutic option to prevent cocaine relapse. Selective antagonists of this receptor have been studied for their potential therapeutic effects in mouse models of cocaine addiction. These compounds reduce the conditioned responses to drug-associated cues and reduce the motivation to seek cocaine, thereby inhibiting relapse-like behavior, and have been found to modulate synaptic plasticity in brain regions involved in addiction, such as the nucleus accumbens and prefrontal cortex. Overall, these compounds demonstrate promising effects in mouse models of cocaine addiction.
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