| Abstract: | Behavioral experiments were conducted to determine the effectsof known potassium channel blockes, minnow extract (a naturalfood substance), and otber taste stimuli on feeding behaviorin the mudpuppy (Necturus maculosus). Groups of 10–15mudpuppies were presented with one or more of the followingchemicals dissolved in gelatin cubes: H2O (control), NaCl (1.0M; 0.2 M), crude minnow extract (0.1 g/ml), CaCl2 (1.0 M), citricacid (0.1 M; pH2, 0.01 M; pH 3), quinine HCl (0.1 M), tetraemylammoninmchloride (TEA; 0.1 M), KCl (1.0 M) and an amino acid mixturecontaining L-phenylalanine, L-arginine, L-histidine, L-valine,L-glutamic acid and L-lysinc at concentrations of 0.02 M and0.04 M each. Crude minnow extract was centrifuged and separatedinto components consisting of the following fractions: >500D, >1000 D and >14 000 D, each of which was presentedto mudpuppies in cubes. Results were expressed as the percentageof animals rejecting the cube within 5 min of taking the cubeinto the oral cavity. Statistical analysis using the Fisherexact test indicated that cubes containing chemicals known toblock (CaCl2, TEA, citric acid and quinine) or permeate (KCl)apical K+ channels in mudpuppy taste cells were more aversivethan control cubes, and aversion was concentration-dependentIn contrast, cubes containing minnow extract and componentsof minnow extract < 14 000 D were significantly preferredover control cubes. Cubes containing a mixture of minnow extractand an aversive chemical were significantly less aversive thancubes containing only an aversive chemical. These findings suggestthat activation of the apical K+ conductance in mudpuppy tastecells triggers an aversive response, but the aversion can beameliorated by low molecular weight compounds present in minnowextract. |
