Effects of Chronic, Intermittent Sucrose Consumption on the Discriminative Stimulus Effects of Dopamine or Opioid Antagonists

Chronic, intermittent sucrose access has been shown to induce neurochemical changes in the brain, including increasing the levels of dopamine and D3‐receptor mRNA, decreasing the levels of D2‐receptor mRNA, and increasing μ‐opioid receptor binding. We wondered if chronic, intermittent sucrose consumption would alter the ability of rats to discriminate drugs that affect endorphin and dopamine functioning. We successfully trained rats with chronic, intermittent sucrose access to discriminate various naltrexone training doses (ranging from 0.32 – 3.2 mg/kg) from saline. In the present series of studies, we sought to determine if chronic, intermittent sucrose consumption alters the ability of haloperidol to serve as a discriminative stimulus. Sprague‐Dawley rats were trained to discriminate between haloperidol [0.018–0.56 mg/kg, 30 min pretreatment (PT)] and vehicle in a two‐lever, operant choice procedure. Most subjects reached the discrimination criteria (80% or greater condition‐appropriate responding for 8 of 10 consecutive sessions). Among subjects that acquired the discrimination, there were no significant differences in acquisition between subjects with chronic, intermittent sucrose access and subjects with 24‐hr water access. Haloperidol (0.032 – 0.056 mg/kg) produced significant rate suppression. Increasing the PT to 60 minutes increased rates of lever pressing and reinforcers earned, but did not alter haloperidol generalization functions. Taken together, chronic sucrose consumption enhanced naltrexone's ability to function as a discriminative stimulus, but did not affect the discriminative stimulus effects of haloperidol. Support or Funding Information University of Wisconsin‐Eau Claire Office of Research and Sponsored Programs This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal .