Gap Junctions Mediate Electrical Signaling and Ensuing Cytosolic Ca2+ Increases between Chromaffin Cells in Adrenal Slices: A Role in Catecholamine Release
In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca(2+)]i) is a key event in the triggering of catecholamine exocytosis after splanchnic nerve activation. Action potential- or nicotine-induced [Ca(2+)]i transients are well described in individual chromaffin cells, but whether...
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| Published in | The Journal of neuroscience Vol. 21; no. 15; pp. 5397 - 5405 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Soc Neuroscience
01.08.2001
Society for Neuroscience |
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| Online Access | Get full text |
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| Abstract | In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca(2+)]i) is a key event in the triggering of catecholamine exocytosis after splanchnic nerve activation. Action potential- or nicotine-induced [Ca(2+)]i transients are well described in individual chromaffin cells, but whether they remain spatially confined to the stimulated cell or propagate to adjacent cells is not yet known. To address this issue, the spatiotemporal organization of electrical and associated Ca(2+) events between chromaffin cells was investigated using the patch-clamp technique and real-time confocal imaging in rat acute adrenal slices. Spontaneous or electrically evoked action potential-driven [Ca(2+)]i transients were simultaneously detected in neighboring cells. This was likely attributable to gap junction-mediated electrotonic communication, as shown by (1) the bidirectional reflection of voltage changes monitored between cell pairs, (2) Lucifer yellow (LY) diffusion between cells exhibiting spontaneous synchronized [Ca(2+)]i transients, and (3) the reduction of LY diffusion using the uncoupling agent carbenoxolone. Furthermore, transcripts encoding two connexins (Cx36 and Cx43) were found in single chromaffin cells. This gap junctional coupling was activated after a synaptic-like application of nicotine that mediated synchronous multicellular [Ca(2+)]i increases. In addition, nicotinic stimulation of a single cell triggered catecholamine release in coupled cells, as shown by amperometric detection of secretory events. Functional coupling between chromaffin cells in situ may represent an efficient complement to synaptic transmission to amplify catecholamine release after synaptic stimulation of a single excited chromaffin cell. |
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| AbstractList | In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca
2+
]i) is a key event in the triggering of catecholamine exocytosis after splanchnic nerve activation. Action potential- or nicotine-induced [Ca
2+
]i transients are well described in individual chromaffin cells, but whether they remain spatially confined to the stimulated cell or propagate to adjacent cells is not yet known. To address this issue, the spatiotemporal organization of electrical and associated Ca
2+
events between chromaffin cells was investigated using the patch-clamp technique and real-time confocal imaging in rat acute adrenal slices. Spontaneous or electrically evoked action potential-driven [Ca
2+
]i transients were simultaneously detected in neighboring cells. This was likely attributable to gap junction-mediated electrotonic communication, as shown by (1) the bidirectional reflection of voltage changes monitored between cell pairs, (2) Lucifer yellow (LY) diffusion between cells exhibiting spontaneous synchronized [Ca
2+
]i transients, and (3) the reduction of LY diffusion using the uncoupling agent carbenoxolone. Furthermore, transcripts encoding two connexins (Cx36 and Cx43) were found in single chromaffin cells. This gap junctional coupling was activated after a synaptic-like application of nicotine that mediated synchronous multicellular [Ca
2+
]i increases. In addition, nicotinic stimulation of a single cell triggered catecholamine release in coupled cells, as shown by amperometric detection of secretory events. Functional coupling between chromaffin cells
in situ
may represent an efficient complement to synaptic transmission to amplify catecholamine release after synaptic stimulation of a single excited chromaffin cell. In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca(2+)]i) is a key event in the triggering of catecholamine exocytosis after splanchnic nerve activation. Action potential- or nicotine-induced [Ca(2+)]i transients are well described in individual chromaffin cells, but whether they remain spatially confined to the stimulated cell or propagate to adjacent cells is not yet known. To address this issue, the spatiotemporal organization of electrical and associated Ca(2+) events between chromaffin cells was investigated using the patch-clamp technique and real-time confocal imaging in rat acute adrenal slices. Spontaneous or electrically evoked action potential-driven [Ca(2+)]i transients were simultaneously detected in neighboring cells. This was likely attributable to gap junction-mediated electrotonic communication, as shown by (1) the bidirectional reflection of voltage changes monitored between cell pairs, (2) Lucifer yellow (LY) diffusion between cells exhibiting spontaneous synchronized [Ca(2+)]i transients, and (3) the reduction of LY diffusion using the uncoupling agent carbenoxolone. Furthermore, transcripts encoding two connexins (Cx36 and Cx43) were found in single chromaffin cells. This gap junctional coupling was activated after a synaptic-like application of nicotine that mediated synchronous multicellular [Ca(2+)]i increases. In addition, nicotinic stimulation of a single cell triggered catecholamine release in coupled cells, as shown by amperometric detection of secretory events. Functional coupling between chromaffin cells in situ may represent an efficient complement to synaptic transmission to amplify catecholamine release after synaptic stimulation of a single excited chromaffin cell. |
| Author | Guerineau, Nathalie C Mathieu, Marie-Noelle Martin, Agnes O Chevillard, Claude |
| AuthorAffiliation | 1 Institut National de la Santé et de la Recherche Médicale (INSERM) U469, Centre National de la Recherche Scientifique/INSERM de Pharmacologie et d'Endocrinologie, 34094 Montpellier CEDEX 5, France |
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| Copyright | Copyright © 2001 Society for Neuroscience 2001 |
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| Snippet | In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca(2+)]i) is a key event in the triggering of catecholamine exocytosis after... In adrenal chromaffin cells, a rise in cytosolic calcium concentration ([Ca 2+ ]i) is a key event in the triggering of catecholamine exocytosis after... |
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| SubjectTerms | Action Potentials - drug effects Adrenal Glands Animals Calcium - metabolism Catecholamines - metabolism Chromaffin Cells - cytology Chromaffin Cells - drug effects Chromaffin Cells - metabolism Connexin 43 - genetics Connexin 43 - metabolism Connexins - genetics Connexins - metabolism Cytosol - metabolism Dopamine beta-Hydroxylase - genetics Dopamine beta-Hydroxylase - metabolism Exocytosis - drug effects Eye Proteins - genetics Eye Proteins - metabolism Female Gap Junction delta-2 Protein Gap Junctions - drug effects Gap Junctions - metabolism In Vitro Techniques Iontophoresis Microscopy, Confocal Nicotine - pharmacology Patch-Clamp Techniques Rats Rats, Wistar RNA, Messenger - metabolism Stimulation, Chemical |
| Title | Gap Junctions Mediate Electrical Signaling and Ensuing Cytosolic Ca2+ Increases between Chromaffin Cells in Adrenal Slices: A Role in Catecholamine Release |
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