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Characterization of a Ca2+ Release-activated Nonselective Cation Current Regulating Membrane Potential and [Ca2+] i Oscillations in Transgenically Derived β-Cells
Although stimulation of insulin secretion by glucose is regulated by coupled oscillations of membrane potential and intracellular Ca 2+ ([Ca 2+ ] i ), the membrane events regulating these oscillations are incompletely understood. In the presence of glucose and tetraethylammonium, transgenically deri...
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| Published in: | The Journal of biological chemistry 1998-04, Vol.273 (17), p.10402 |
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| container_issue | 17 |
| container_start_page | 10402 |
| container_title | The Journal of biological chemistry |
| container_volume | 273 |
| creator | Michael W. Roe Jennings F. Worley III Feng Qian Natalia Tamarina Anshu A. Mittal Flora Dralyuk Nathaniel T. Blair Robert J. Mertz Louis H. Philipson Iain D. Dukes |
| description | Although stimulation of insulin secretion by glucose is regulated by coupled oscillations of membrane potential and intracellular
Ca 2+ ([Ca 2+ ] i ), the membrane events regulating these oscillations are incompletely understood. In the presence of glucose and tetraethylammonium,
transgenically derived β-cells (βTC3-neo) exhibit coupled voltage and [Ca 2+ ] i oscillations strikingly similar to those observed in normal islets in response to glucose. Using these cells as a model system,
we investigated the membrane conductance underlying these oscillations. Alterations in delayed rectifier or Ca 2+ -activated K + channels were excluded as a source of the conductance oscillations, as they are completely blocked by tetraethylammonium.
ATP-sensitive K + channels were also excluded, since the ATP-sensitive K + channel blocker tolbutamide substituted for glucose in inducing [Ca 2+ ] i oscillations. Thapsigargin, which depletes intracellular Ca 2+ stores, and maitotoxin, an activator of nonselective cation channels, both converted the glucose-dependent [Ca 2+ ] i oscillations into a sustained elevation. On the other hand, both SKF 96365, a blocker of Ca 2+ store-operated channels, and external Na + removal suppressed the glucose-stimulated [Ca 2+ ] i oscillations. Maitotoxin activated a nonselective cation current in βTC3 cells that was attenuated by removal of extracellular
Na + and by SKF 96365, in the same manner to a current activated in mouse β-cells following depletion of intracellular Ca 2+ stores. Currents similar to these are produced by the mammalian trp -related channels, a gene family that includes Ca 2+ store-operated channels and inositol 1,4,5-trisphosphate-activated channels. We found several of the trp family genes were expressed in βTC3 cells by reverse transcriptase polymerase chain reaction using specific primers, but
by Northern blot analysis, mtrp-4 was the predominant message expressed. We conclude that a conductance underlying glucose-stimulated oscillations in β-cells
is provided by a Ca 2+ store depletion-activated nonselective cation current, which is plausibly encoded by homologs of trp genes. |
| doi_str_mv | 10.1074/jbc.273.17.10402 |
| format | article |
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Ca 2+ ([Ca 2+ ] i ), the membrane events regulating these oscillations are incompletely understood. In the presence of glucose and tetraethylammonium,
transgenically derived β-cells (βTC3-neo) exhibit coupled voltage and [Ca 2+ ] i oscillations strikingly similar to those observed in normal islets in response to glucose. Using these cells as a model system,
we investigated the membrane conductance underlying these oscillations. Alterations in delayed rectifier or Ca 2+ -activated K + channels were excluded as a source of the conductance oscillations, as they are completely blocked by tetraethylammonium.
ATP-sensitive K + channels were also excluded, since the ATP-sensitive K + channel blocker tolbutamide substituted for glucose in inducing [Ca 2+ ] i oscillations. Thapsigargin, which depletes intracellular Ca 2+ stores, and maitotoxin, an activator of nonselective cation channels, both converted the glucose-dependent [Ca 2+ ] i oscillations into a sustained elevation. On the other hand, both SKF 96365, a blocker of Ca 2+ store-operated channels, and external Na + removal suppressed the glucose-stimulated [Ca 2+ ] i oscillations. Maitotoxin activated a nonselective cation current in βTC3 cells that was attenuated by removal of extracellular
Na + and by SKF 96365, in the same manner to a current activated in mouse β-cells following depletion of intracellular Ca 2+ stores. Currents similar to these are produced by the mammalian trp -related channels, a gene family that includes Ca 2+ store-operated channels and inositol 1,4,5-trisphosphate-activated channels. We found several of the trp family genes were expressed in βTC3 cells by reverse transcriptase polymerase chain reaction using specific primers, but
by Northern blot analysis, mtrp-4 was the predominant message expressed. We conclude that a conductance underlying glucose-stimulated oscillations in β-cells
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Ca 2+ ([Ca 2+ ] i ), the membrane events regulating these oscillations are incompletely understood. In the presence of glucose and tetraethylammonium,
transgenically derived β-cells (βTC3-neo) exhibit coupled voltage and [Ca 2+ ] i oscillations strikingly similar to those observed in normal islets in response to glucose. Using these cells as a model system,
we investigated the membrane conductance underlying these oscillations. Alterations in delayed rectifier or Ca 2+ -activated K + channels were excluded as a source of the conductance oscillations, as they are completely blocked by tetraethylammonium.
ATP-sensitive K + channels were also excluded, since the ATP-sensitive K + channel blocker tolbutamide substituted for glucose in inducing [Ca 2+ ] i oscillations. Thapsigargin, which depletes intracellular Ca 2+ stores, and maitotoxin, an activator of nonselective cation channels, both converted the glucose-dependent [Ca 2+ ] i oscillations into a sustained elevation. On the other hand, both SKF 96365, a blocker of Ca 2+ store-operated channels, and external Na + removal suppressed the glucose-stimulated [Ca 2+ ] i oscillations. Maitotoxin activated a nonselective cation current in βTC3 cells that was attenuated by removal of extracellular
Na + and by SKF 96365, in the same manner to a current activated in mouse β-cells following depletion of intracellular Ca 2+ stores. Currents similar to these are produced by the mammalian trp -related channels, a gene family that includes Ca 2+ store-operated channels and inositol 1,4,5-trisphosphate-activated channels. We found several of the trp family genes were expressed in βTC3 cells by reverse transcriptase polymerase chain reaction using specific primers, but
by Northern blot analysis, mtrp-4 was the predominant message expressed. We conclude that a conductance underlying glucose-stimulated oscillations in β-cells
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Ca 2+ ([Ca 2+ ] i ), the membrane events regulating these oscillations are incompletely understood. In the presence of glucose and tetraethylammonium,
transgenically derived β-cells (βTC3-neo) exhibit coupled voltage and [Ca 2+ ] i oscillations strikingly similar to those observed in normal islets in response to glucose. Using these cells as a model system,
we investigated the membrane conductance underlying these oscillations. Alterations in delayed rectifier or Ca 2+ -activated K + channels were excluded as a source of the conductance oscillations, as they are completely blocked by tetraethylammonium.
ATP-sensitive K + channels were also excluded, since the ATP-sensitive K + channel blocker tolbutamide substituted for glucose in inducing [Ca 2+ ] i oscillations. Thapsigargin, which depletes intracellular Ca 2+ stores, and maitotoxin, an activator of nonselective cation channels, both converted the glucose-dependent [Ca 2+ ] i oscillations into a sustained elevation. On the other hand, both SKF 96365, a blocker of Ca 2+ store-operated channels, and external Na + removal suppressed the glucose-stimulated [Ca 2+ ] i oscillations. Maitotoxin activated a nonselective cation current in βTC3 cells that was attenuated by removal of extracellular
Na + and by SKF 96365, in the same manner to a current activated in mouse β-cells following depletion of intracellular Ca 2+ stores. Currents similar to these are produced by the mammalian trp -related channels, a gene family that includes Ca 2+ store-operated channels and inositol 1,4,5-trisphosphate-activated channels. We found several of the trp family genes were expressed in βTC3 cells by reverse transcriptase polymerase chain reaction using specific primers, but
by Northern blot analysis, mtrp-4 was the predominant message expressed. We conclude that a conductance underlying glucose-stimulated oscillations in β-cells
is provided by a Ca 2+ store depletion-activated nonselective cation current, which is plausibly encoded by homologs of trp genes.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>9553098</pmid><doi>10.1074/jbc.273.17.10402</doi></addata></record> |
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| title | Characterization of a Ca2+ Release-activated Nonselective Cation Current Regulating Membrane Potential and [Ca2+] i Oscillations in Transgenically Derived β-Cells |
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