Abstract
We are investigating transduction mechanisms in a major peripheral chemosensory organ, the rat carotid body, using short- and long-term dissociated cell cultures and patch-clamp, whole-cell recording. In this study membrane properties of cultured glomus or type I cells were characterized with conventional whole-cell recording and the new perforated-patch technique during control (160 Torr) and low-PO2 (20 Torr) conditions. These cells contained voltage-gated channels typical of electrically excitable cells and had large input resistances (approx. 2 GΩ). Under whole-cell voltage clamp the cells produced brief inactivating inward currents, which were largely abolished by 0.2–2.0 μM tetrodotoxin, followed by prolonged outward currents, which were reduced by 5 mM tetraethylammonium or abolished by the substitution of Cs+ ions for K+ ions in the pipette. On exposure to hypoxia the outward K+ current was reduced typically by 15%–20% with both conventional whole-cell and perforated-patch recording, which minimizes washout of the cell's cytoplasm. This effect persisted in long-term culture and was specific, since the inward current was unaffected and, moreover, it did not occur in cultured small intensely fluorescent cells, which are closely related to glomus cells. These properties of cultured rat glomus cells are contrasted with those recently reported for freshly isolated rabbit glomus cells.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Biscoe TJ (1971) Carotid body: structure and function. Physiol Rev 51:437–491
Biscoe TJ, Duchen MR (1989) Electrophysiological responses of dissociated type I cells of the rabbit carotid body to cyanide. J Physiol (Lond) 413:447–468
De Castro F (1926) Sur la structure et l'innervation de la glande intercarotidienne (Glomus caroticum) de l'homme et des mammifères, et sur un nouveau système d'innervation autonome du nerf glossopharyngien. Etudes anatomiques et experimentales. Trab Lab Invest Biol Univ Madrid 24:365–432
Delpiano MA, Hescheler J (1989) Evidence for a PO2-sensitive K+ channel in the type I cell of the rabbit carotid body. FEBS Lett 249:195–198
Doupe AJ, Patterson PH, Landis SC (1985) Small intensely fluorescent cells in culture: role of glucocorticoids and growth factors in their development and interconversions with other neural crest derivatives. J Neurosci 5:2143–2160
Duchen MR, Caddy KWT, Kirby GC, Patterson DL, Ponte J, Biscoe TJ (1988) Biophysical studies of the cellular elements of the rabbit carotid body. Neuroscience 26:291–311
Eyzaguirre C, Zapata P (1984) Perspectives in carotid body research. J Appl Physiol 57:931–957
Eyzaguirre C, Monti-Bloch L, Baron M, Hayashida Y, Woodbury JW (1988) Changes in glomus cell membrane properties in response to stimulants and depressants of carotid nerve discharge. Brain Res 477:265–279
Fenwick EM, Marty A, Neher E (1982) A patch-clamp study of bovine chromaffin cells and their sensitivity to acetylcholine. J Physiol (Lond) 331:577–597
Fishman MC, Schaffner AE (1984) Carotid body cell culture and selective growth of glomus cells. Am J Physiol 246:C106-C113
Fishman MC, Greene WL, Platika D (1985) Oxygen chemoreception by carotid body cells in culture. Proc Natl Acad Sci USA 82:1448–1450
Hamill OP, Marty A, Neher E, Sackmann B, Sigworth FJ (1981) Improved patch-clamp techniques for high-resolution current recordings from cells and cell-free membrane patches. Pflügers Arch 391:85–100
Hescheler J, Delpiano MA, Acker H, Pietruschka F (1989) Ionic currents on type I cells of the rabbit carotid body measured by voltage-clamp experiments and the effect of hypoxia. Brain Res 486:79–88
Horn R, Marty A (1988) Muscarinic activation of ionic currents measured by a new whole-cell recording method. J Gen Physiol 92:145–159
Kobayashi S (1971) Comparative cytological studies of the carotid body: I. Demonstration of monoamine-storing cells by correlated chromaffin reaction and fluorescence histochemistry. Arch Histol Jpn 33:319–339
Lopez-Barneo J, Lopez-Lopez JR, Urena J, Gonzalez C (1988) Chemotransduction in the carotid body: K+ current modulated by PO2 in type I chemoreceptor cells. Science 241:580–582
Lopez-Lopez J, Gonzalez C, Urena J, Lopez-Barneo J (1989) Low PO2 selectively inhibits K channel activity in chemoreceptor cells of the mammalian carotid body. J Gen Physiol 93:1001–1015
McDonald DM, Blewett RW (1981) Location and size of carotid body-like organs (paraganglia) revealed in rats by the permeability of blood vessels to Evans blue dye. J Neurocytol 10:607–643
Nurse CA (1987) Localization of acetylcholinesterase in dissociated cell cultures of the carotid body of the rat. Cell Tissue Res 250:21–27
Nurse CA (1990) Carbonic anhydrase and neuronal enzymes in cultured glomus cells of the carotid body of the rat. Cell Tissue Res 261:65–71
Stea A, Nurse CA (1989a) Whole-cell recordings from cultured glomus cells of the rat carotid body (abstract). Biophys J 55:173a
Stea A, Nurse CA (1989b) Chloride channels in cultured glomus cells of the rat carotid body. Am J Physiol 257:C174-C181
Stea A, Nurse CA (1990) Chemotransduction mechanisms determined by two methods of whole-cell recording (abstract). Biophys J 57:312a
Urena J, Lopez-Lopez J, Gonzalez C, Lopez-Barneo J (1989) Ionic currents in dispersed chemoreceptor cells of the mammalian carotid body. J Gen Physiol 93:979–999
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Stea, A., Nurse, C.A. Whole-cell and perforated-patch recordings from O2-sensitive rat carotid body cells grown in short- and long-term culture. Pflügers Archiv 418, 93–101 (1991). https://doi.org/10.1007/BF00370457
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00370457