Self-inhibition in Ca2+ -evoked taste responses: a novel tool for functional dissection of salt taste transduction mechanisms.

نویسندگان

  • M A Kloub
  • G L Heck
  • J A DeSimone
چکیده

Rat chorda tympani (CT) responses to CaCl2 were obtained during simultaneous current and voltage clamping of the lingual receptive field. Unlike most other salts, CaCl2 induced negatively directed transepithelial potentials and gave CT responses that were auto-inhibitory beyond a critical concentration. CT responses increased in a dose-dependent manner to approximately 0.3 M, whereafter they decreased with increasing concentration. At concentrations where Ca2+ was self-inhibitory, it also inhibited responses to NaCl, KCl, and NH4Cl present in mixtures with CaCl2. Ca2+ completely blocked the amiloride-insensitive component of the NaCl CT response, the entire KCl-evoked CT response, and the high-concentration-domain CT responses of NH4Cl (>/=0.3 M). The overlapping Ca2+-sensitivity between the responses of the three Cl- salts (Na+, K+, and NH+4) suggests a common, Ca2+-sensitive, transduction pathway. Extracellular Ca2+ has been shown to modulate the paracellular pathways in different epithelial cell lines by decreasing the water permeability and cation conductance of tight junctions. Ca2+-induced modulation of tight junctions is associated with Ca2+ binding to fixed negative sites. This results in a conversion of ion selectivity from cationic to anionic, which we also observed in our system through simultaneous monitoring of the transepithelial potential during CT recording. The data indicate the paracellular pathway as the stimulatory and modulatory site of CaCl2 taste responses. In addition, they indicate that important transduction sites for NaCl, KCl, and NH4Cl taste reception are accessible only through the paracellular pathways. More generally, they show that modulation of paracellular transport by Ca2+ in an intact epithelium has functional consequences at a systemic level.

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منابع مشابه

Self-Inhibition in Ca-Evoked Taste Responses: A Novel Tool for Functional Dissection of Salt Taste Transduction Mechanisms

Kloub, Mamoun A., Gerard L. Heck, and John A. DeSimone. Evidence suggests that the amiloride-insensitive component Self-inhibition in Ca-evoked taste receptors: a novel tool for (AIC) of the NaCl neural response arises from transduction functional dissection of salt taste transduction mechanisms. J. Neusites along the basolateral membranes of receptor cells, acrophysiol. 79: 911–921, 1998. Rat ...

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عنوان ژورنال:
  • Journal of neurophysiology

دوره 79 2  شماره 

صفحات  -

تاریخ انتشار 1998