Training and characterization of a quinine taste discrimination in rhesus monkeys

There is a limited amount of information available about taste as a discriminative stimulus in nonhuman primates. The objective of this study was to es tablish a bitter taste (quinine sulfate) as a cue for lever selection and food reward in rhesus monkeys. Training took place in a series of steps that culminated in a schedule in which five lip contacts on a spout produced either quinine solution or water, followed by an opportunity to earn a food pellet by completing 20 presses on one of two levers. Responses on one of the levers resulted in food delivery if the solution contained quinine; responses on the other lever resulted in food delivery if the solution was water. A single session consisted of 100 randomly ordered taste trials with a 60-s interval between each trial. All of the animals acquired the discrimination, and the lowest quinine concentration that maintained consistent behavior was 0.3 mg/ml. To assess the specificity of the discrimination, compounds from other human taste categories were tested. A series of compounds that are detected as "bitter" by humans (caffeine, 1.5x10(-3) M; strychnine, 9x10(-4) M; PTC, 6x10(-5) M, denatonium benzoate, 2.24x10(-4) M; and urea, 3.0x10(-1) M) produced full generalization to the quinine sulfate discriminative stimulus, while "sweet" (sucrose, 2.9x10(-2) M) and "salty" (sodium chloride, 1.4 M) stimuli did not. There was individual variation among animals in response to "sour" compounds; acetic acid did not general ize to quinine, but HCl acid produced full generalization in one of three animals. These results suggest that a "bitter" taste cue is controlling the quinine discrimination.