Rearing on basal or high dietary NaCl modifies chorda tympani nerve responses in rats

Physiology and Behavior

Volumn 77, Issue 2-3, 2002, Pages 277-289

  Pittman, David W ^a   Contreras, Robert J ^a  

^a FLORIDA STATE UNIVERSITY   (United States)

Author keywords

Amiloride; Electrophysiology; Taste; Transduction mechanisms

Indexed keywords

AMILORIDE; SODIUM CHANNEL BLOCKING AGENT; SODIUM CHLORIDE;

ANIMAL EXPERIMENT; ANIMAL TISSUE; ARTICLE; CHORDA TYMPANI; CONCEPTION; CONTROLLED STUDY; DRUG INHIBITION; FEMALE; MALE; NERVE POTENTIAL; NONHUMAN; POSTNATAL DEVELOPMENT; PRIORITY JOURNAL; RAT; SALT INTAKE; SIGNAL TRANSDUCTION;

EID: 0036853696     PISSN: 00319384     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0031-9384(02)00852-1     Document Type: Article

References (41)

1. Beidler L.M., Smallman R.L. Renewal of cells within taste buds. J. Cell Biol. 27:1965;263-272.
2. Benos D.J. Amiloride: a molecular probe of sodium transport in tissues and cells. Am. J. Physiol. 242:1982;C131-C145.
3. Bernstein I.L., Hennessy C.J. Amiloride-sensitive sodium channels and expression of sodium appetite in rats. Am. J. Physiol. 253:1987;R371-R374.
4. Influence of early salt diet on taste and blood pressure in rats
5. Contreras R.J., Kosten T. Prenatal and early postnatal sodium chloride intake modifies the solution preferences of adult rats. J. Nutr. 113:1983;1051-1062.
6. Contreras R.J., Lundy R.F. Gustatory neuron types in the periphery: a functional perspective. Physiol. Behav. 69:2000;41-52.
7. Contreras R.J., Ryan K.W. Perinatal exposure to a high NaCl diet increases the NaCl intake of adult rats. Physiol. Behav. 47:1990;507-512.
8. Contreras R.J., Studley J.L. Amiloride alters lick rate responses to NaCl and KCl in rats. Chem. Senses. 19:1994;219-229.
9. Denton D.A. The Hunger for Salt: An Anthropological, Physiological, and Medical Analysis. 1982;Springer-Verlag, Berlin.
10. DeSimone J.A., Ye Q., Heck G.L. Ion pathways in the taste bud and their significance for transduction. Ciba Found. Symp. 179:1993;218-229.
11. Geran L.C., Spector A.C. Amiloride increases sodium chloride taste detection threshold in rats. Behav. Neurosci. 114:2000;623-634.
12. Gilbertson T.A. Peripheral mechanisms of taste. Linden R.W.A. The scientific basis of eating: taste and smell, salivation, mastication and swallowing and their dysfunctions. 1998;1-28 Karger, Basel.
13. Herness M.S., Gilbertson T.A. Cellular mechanisms of taste transduction. Annu. Rev. Physiol. 61:1999;873-900.
14. Hill D.L. Development of amiloride sensitivity in the rat peripheral gustatory system. Roper S.D., Atema J. Olfaction and taste IX. Ann. N.Y. Acad. Sci. 1987;369-372 New York Academy of Sciences, New York.
15. Hill D.L. Susceptibility of the developing rat gustatory system to the physiological effects of dietary sodium deprivation. J. Physiol. 393:1987;413-424.
16. Hill D.L., Almli C.R. Ontogeny of chorda tympani nerve responses to gustatory stimuli in the rat. Brain Res. 197:1980;27-38.
17. Hill D.L., Bour T.C. Addition of functional amiloride-sensitive components to the receptor membrane: a possible mechanism for altered taste responses during development. Brain Res. 352:1985;310-313.
18. Hill D.L., Formaker B.K., White K.S. Perceptual characteristics of the amiloride-suppressed sodium chloride taste response in the rat. Behav. Neurosci. 104:1990;734-741.
19. Hill D.L., Mistretta C.M., Bradley R.M. Developmental changes in taste response characteristics of rat single chorda tympani fibers. J. Neurosci. 2:1982;782-790.
20. Hill D.L., Mistretta C.M., Bradley R.M. Effects of dietary NaCl deprivation during early development on behavioral and neurophysiological taste responses. Behav. Neurosci. 100:1986;390-398.
21. Hill D.L., Przekop P.R. Jr. Influences of dietary sodium on functional taste receptor development: a sensitive period. Science. 241:1988;1826-1828.
22. King C.T., Hill D.L. Dietary sodium chloride deprivation throughout development selectively influences the terminal field organization of gustatory afferent fibers projecting to the rat nucleus of the solitary tract. J. Comp. Neurol. 303:1991;159-169.
23. Krimm R.F., Hill D.L. Early dietary sodium restriction disrupts the peripheral anatomical development of the gustatory system. J. Neurobiol. 39:1999;218-226.
24. Lundy R.F. Jr., Contreras R.J. Gustatory neuron types in rat geniculate ganglion. J. Neurophysiol. 82:1999;2970-2988.
25. Lundy R.F. Jr., Contreras R.J. Temperature and amiloride alter taste nerve responses to Na+, K+, and NH+4 salts in rats. Brain Res. 744:1997;309-317.
26. Lundy R.F. Jr., Pittman D.W., Contreras R.J. Role for epithelial Na+ channels and putative Na+/H+ exchangers in salt taste transduction in rats. Am. J. Physiol. 273:1997;R1923-R1931.
27. McCutcheon N.B. Sodium deficient rats are unmotivated by sodium chloride solutions mixed with the sodium channel blocker amiloride. Behav. Neurosci. 105:1991;764-766.
28. Meneely G.R., Battarbee H.D. Sodium and potassium. Nutr. Rev. 34:1976;225-235.
29. Minear M.M., Hammack S.E., Lundy R.F. Jr., Contreras R.J. Amiloride inhibits taste nerve responses to NaCl and KCl in Sprague-Dawley and Fischer 344 rats. Physiol. Behav. 60:1996;507-516.
30. Moe K.E. The salt intake of rat dams influences the salt intake and brain angiotensin receptors of their adult offspring. Soc. Neurosci. Abstr. 13:1987;1169.
31. Pittman D.W., Contreras R.J. Dietary NaCl influences the organization of chorda tympani neurons projecting to the nucleus of the solitary tract in rats. Chem. Senses. 27:2002;333-341.
32. Przekop P. Jr., Mook D.G., Hill D.L. Functional recovery of the gustatory system after sodium deprivation during development: how much sodium and where. Am. J. Physiol. 259:1990;R786-R791.
33. Roitman M.F., Bernstein I.L. Amiloride-sensitive sodium signals and salt appetite: multiple gustatory pathways. Am. J. Physiol. 276:1999;R1732-R1738.
34. Spector A.C., Guagliardo N.A., St. John S.J. Amiloride disrupts NaCl versus KCl discrimination performance: implications for salt taste coding in rats. J. Neurosci. 16:1996;8115-8122.
35. Stamler J. Dietary salt and blood pressure. Ann. N.Y. Acad. Sci. 676:1993;122-156.
36. Stewart R.E., Hill D.L. Time course of saline-induced recovery of the gustatory system in sodium-restricted rats. Am. J. Physiol. 270:1996;R704-R712.
37. Stewart R.E., Lasiter P.S., Benos D.J., Hill D.L. Immunohistochemical correlates of peripheral gustatory sensitivity to sodium and amiloride. Acta Anat. 153:1995;310-319.
38. Vogt M.B., Hill D.L. Enduring alterations in neurophysiological taste responses after early dietary sodium deprivation. J. Neurophysiol. 69:1993;832-841.
39. Ye Q., Heck G.L., DeSimone J.A. Effects of voltage perturbation of the lingual receptive field on chorda tympani responses to Na+ and K+ salts in the rat: implications for gustatory transduction. J. Gen. Physiol. 104:1994;885-907.
40. Ye Q., Heck G.L., DeSimone J.A. Voltage dependence of the rat chorda tympani response to Na+ salts: implications for the functional organization of taste receptor cells. J. Neurophysiol. 70:1993;167-178.
41. Ye Q., Stewart R.E., Heck G.L., Hill D.L., DeSimone J.A. Dietary Na(+)-restriction prevents development of functional Na+ channels in taste cell apical membranes: proof by in vivo membrane voltage perturbation. J. Neurophysiol. 70:1993;1713-1716.