User menu

Role of Voltage-dependent and Ca-2+-dependent K+ Channels in the Control of Glucose-induced Electrical-activity in Pancreatic B-cells

Bibliographic reference Henquin, Jean-Claude. Role of Voltage-dependent and Ca-2+-dependent K+ Channels in the Control of Glucose-induced Electrical-activity in Pancreatic B-cells. In: Pflügers Archiv - European journal of physiology, Vol. 416, no. 5, p. 568-572 (1990)
Permanent URL
  1. Ashcroft FM, Harrison DE, Ashcroft SJH (1984) Glucose induces closure of single potassium channels in isolated rat pancreatic B-cells. Nature 312: 446?448
  2. Ashcroft FM, Ashcroft SJH, Harrison DE (1988) Properties of single potassium channels modulated by glucose in rat pancreatic B-cells. J Physiol 400: 501?527
  3. Atwater I, Ribalet B, Rojas E (1978) Cyclic changes in potential and resistance of the B-cell membrane induced by glucose in islets of Langerhans from mouse. J Physiol 278: 117?139
  4. Atwater I, Ribalet B, Rojas E (1979) Mouse pancreatic B-cells: tetraethylammonium blockage of the potassium permeability increase by depolarization. J Physiol 288: 561?574
  5. Atwater I, Dawson CM, Ribalet B, Rojas E (1979) Potassium permeability activated by intracellular ion concentration in the pancreatic B-cell. J Physiol 288: 575?588
  6. Bozem M, Henquin JC (1988) Glucose modulation of spike activity independently from changes in slow waves of membrane potential in mouse B-cells. Pflügers Arch 413: 147?152
  7. Cook DL, Hales CN (1984) Intracellular ATP directly blocks K+ channels in pancreatic B-cells. Nature 311: 271?273
  8. Cook DL, Ikeuchi M (1989) Tolbutamide as mimic of glucose on B-cell electrical activity. ATP-sensitive K+ channels as common pathway for both stimuli. Diabetes 38: 416?421
  9. Dean PM, Matthews EK (1970) Glucose-induced electrical activity in pancreatic islet cells. J. Physiol 210: 255?264
  10. Fatherazi S, Cook DL (1989) Effects of tetraethylammonium and quinine on ATP-sensitive and Ca-activated K channels in HIT cells (abstract). Diabetes 38: 95A
  11. Findlay I, Dunne MJ, Petersen OH (1985) ATP-sensitive inward rectifier and voltage- and calcium-activated K+ channels in cultured pancreatic islet cells. J Membr Biol 88: 165?172
  12. Findlay I, Dunne MJ, Ullrich S, Wollheim CB, Petersen OH (1985) Quinine inhibits Ca2+-independent K+ channels whereas tetraethylammonium inhibits Ca2+-activated K+ channels in insulin-secreting cells. FEBS Lett 185: 4?8
  13. Henquin JC (1977) Tetraethylammonium potentiation of insulin release and inhibition of rubidium efflux in pancreatic islets. Biochem Biophys Res Commun 77: 551?556
  14. Henquin JC (1978) D-glucose inhibits potassium efflux from pancreatic islet cells. Nature 271: 271?273
  15. Henquin JC (1979) Opposite effects of intracellular Ca2+ and glucose on K+ permeability of pancreatic islet cells. Nature 280: 66?68
  16. Henquin JC (1987) Regulation of insulin release by ionic and electrical events in B-cells. Horm Res 27: 168?178
  17. Henquin JC (1988) ATP-sensitive K+ channels may control glucose-induced electrical activity in pancreatic B-cells. Biochem Biophys Res Commun 156: 769?775
  18. Henquin JC, Meissner HP (1984) Significance of ionic fluxes and changes in membrane potential for stimulus-secretion coupling in pancreatic B-cells. Experientia 40: 1043?1052
  19. Henquin JC, Meissner HP, Preissler M (1979) 9-aminoacridine- and tetraethylammonium-induced reduction of the potassium permeability in pancreatic B-cells. Biochim Biophys Acta 587: 579?592
  20. Henquin JC, Garcia MC, Bozem M, Hermans MP, Nenquin M (1988) Muscarinic control of pancreatic B-cell function involves sodium dependent depolarization and calcium influx. Endocrinology 122: 2134?2142
  21. Matthews EK (1985) Electrophysiology of pancreatic islet B-cells. In: Poisner AM, Trifaro JM (eds) The electrophysiology of the secretory cell. Elsevier, Amsterdam, pp 93?112
  22. Meissner HP, Schmelz H (1975) Membrane potential of beta-cells in pancreatic islets. Pflügers Arch 351: 195?206
  23. Misler S, Falke LC, Gillis K, McDaniel ML (1986) A metabolite-regulated potassium channel in rat pancreatic B-cells. Proc Natl Acad Sci USA 83: 7119?7123
  24. Petersen OH, Findlay I (1987) Electrophysiology of the pancreas. Physiol Rev 67: 1054?1116
  25. Plant TD (1988) Properties and calcium-dependent inactivation of calcium currents in cultured mouse pancreatic B-cells. J Physiol 404: 731?747
  26. Ribalet B, Beigelman PM (1980) Calcium action potentials and potassium permeability activation in pancreatic B-cells. Am J Physiol 239: C124-C133
  27. Ribalet B, Eddlestone GT, Ciani S (1988) Metabolic regulation of the K(ATP) and a maxi-K(V) channel in the insulin-secreting RINm5F cell. J Gen Physiol 92: 219?237
  28. Rorsman P, Trube G (1985) Glucose-dependent K+ channels in pancreatic B-cells are regulated by intracellular ATP. Pflügers Arch 405: 305?309
  29. Sehlin J, Täljedal I-B (1975) Glucose-induced decrease in Rb+ permeability in pancreatic B-cells. Nature 253: 635?636
  30. Smith PA, Ashcroft FM (1989) Modulation of L-type Ca channels in murine pancreatic B cells by glucose metabolism (abstract). Diabetologia 32: 542A-543A
  31. Tabcharani JA, Misler S (1989) Ca2+-activated K+ channel in rat pancreatic islet B cells: permeation, gating and blockade by cations. Biochim Biophys Acta 982: 62?72
  32. Velasco JM, Petersen JUH, Petersen OH (1988) Single-channel Ba2+ currents in insulin-secreting cells are activated by glyceraldehyde stimulation. FEBS Lett 231: 366?370