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The Journal of Neurophysiology Vol. 83 No. 5 May 2000, pp. 2776-2779
Copyright ©2000 by the American Physiological Society
Department of Veterinary Physiology, Faculty of Agriculture, Gifu University, Gifu 501-1193, Japan
Ogiso, Kazuma,
Yasutake Shimizu,
Ken Watanabe, and
Keiichi Tonosaki.
Possible Involvement of Undissociated Acid Molecules in the Acid
Response of the Chorda Tympani Nerve of the Rat. J. Neurophysiol. 83: 2776-2779, 2000. To test
whether undissociated acid is capable of exciting the chorda tympani
nerves in rats, we have used buffered acid solutions as taste stimuli.
These solutions were prepared by adding alkali to weak acids, such as
acetic acid, so that the proportion of undissociated and dissociated
acids was varied whereas keeping the total acid concentration constant.
When acetic acid solutions, adjusted to wide ranges of pH by NaOH, were
applied to the tongue, the response magnitude of the chorda tympani
nerves was not varied systematically with pH changes. However, if the
sodium effect was eliminated by amiloride or replacement of cation by
potassium or Tris[hydroxymethyl]aminomethane;
NH2C(CH2OH)3 (Tris-base), the
chorda tympani response was reduced systematically as pH increased. Similar results were obtained with citric acid and ascorbic acid. This
pH-dependent change in taste nerve response to acid cannot be solely
attributed to the proton gradient because the response magnitude
induced by hydrogen itself, which was estimated from responses to
strong acids, was much smaller than that by equi-pH acetic acid
(~85%). Thus we cannot explain the pH-dependent responses of the
chorda tympani nerves to weak acids unless effects of undissociated acid molecules are postulated. It is therefore concluded that undissociated acids in weak acid solutions can be a stimulant to taste
receptor cells.
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