Salt taste transduction occurs through an amiloride-sensitive sodium transport pathway

Salt taste transduction occurs through an amiloride-sensitive sodium transport pathway

An important early event in mammalian gustatory transduction with respect to sodium chloride has been found to be the passage of sodium ions through specific transport pathways in the apical region of the taste bud. The inward current caused by sodium chloride placed on the mucosal surface of an in...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1984-01, Vol.223 (4634), p.403-405
Hauptverfasser: Heck, G.L, Mierson, S, DeSimone, J.A
Format: Artikel
Sprache:eng
Schlagworte:
Amiloride
Amiloride - pharmacology
Animals
Biological and medical sciences
Biological Transport - drug effects
Biomedical transducers
Cells
Chlorides
Epithelium
Epithelium - metabolism
Fundamental and applied biological sciences. Psychology
Gustatory perception
Olfactory system and olfaction. Gustatory system and gustation
Physiological aspects
Physiology
Potassium Chloride - pharmacology
Pyrazines - pharmacology
Rats
Rats, Inbred Strains
Salt
Salt (Food)
Saltiness (Taste)
Sodium
Sodium - metabolism
Sodium Chloride - pharmacology
Table salt
Taste
Taste (Sense)
Taste - physiology
Taste buds
Taste Buds - innervation
Taste Buds - metabolism
Transducers, Biomedical
Vertebrates: nervous system and sense organs
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Zusammenfassung:An important early event in mammalian gustatory transduction with respect to sodium chloride has been found to be the passage of sodium ions through specific transport pathways in the apical region of the taste bud. The inward current caused by sodium chloride placed on the mucosal surface of an in vitro preparation of rat dorsal lingual epithelium can be substantially reduced by the blocker of sodium ion transport, amiloride. The data show (i) that amiloride is a specific blocker of the chorda tympani response to sodium chloride, but not to potassium chloride, (ii) that the sodium and potassium gustatory systems are largely independent at the peripheral level, and (iii) that the classical ion taste ``receptor'' is actually a specific transport pathway permitting the cation to enter the taste-bud cell and thereby to spread depolarizing current.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.6691151