Abstract

The attraction to sugar-rich foods is influenced by conditioned flavor preferences (CFP) produced by the sweet taste of sugar (flavor–flavor learning) and the sugar's post-oral actions (flavor–nutrient) learning. Brain dopamine (DA) circuits are involved in both types of flavor learning, but to different degrees. This study investigated the role of DA receptors in the lateral hypothalamus (LH) on the flavor–flavor learning produced the sweet taste of fructose. In an acquisition study, food-restricted rats received bilateral LH injections of a DA D1 receptor antagonist (SCH23390), a D2 antagonist (RAC, raclopride) or vehicle prior to 1-bottle training sessions with a flavored 8% fructose+0.2% saccharin solution (CS+/F) and a less-preferred flavored 0.2% saccharin solution (CS−). Drug-free 2-bottle tests were then conducted with the CS+ and CS− flavors presented in saccharin. The fructose-CFP did not differ among groups given vehicle (76%), 12nmol SCH (78%), 24nmol (82%) or 24nmol RAC (90%) during training. In an expression study with rats trained drug-free, LH injections of 12 or 24nmol SCH or 12–48nmol RAC prior to 2-bottle tests did not alter CS+ preferences (77–90%) relative to vehicle injection (86%). Only a 48nmol SCH dose suppressed the CS+ preference (61%). The minimal effect of LH DA receptor antagonism upon fructose flavor–flavor conditioning differs with the ability of LH SCH injections to block the acquisition of glucose flavor–nutrient learning.

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