Delay in vesicle fusion revealed by electrochemical monitoring of single secretory events in adrenal chromaffin cells

I N synapses, a rise in presynaptic intracellular calcium leads to secretory vesicle fusion in less than a millisecond, as indicated by the short delay from excitation to postsynaptic signal 1–4 . In non-synaptic secretory cells, studies at high time resolution have been limited by the lack of a det...

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Veröffentlicht in:	Nature (London) 1992-03, Vol.356 (6364), p.60-63
Hauptverfasser:	Chow, Robert H, von Rüden, Ludolf, Neher, Erwin
Format:	Artikel
Sprache:	eng
Schlagworte:	adrenal glands Adrenal Medulla - cytology Adrenal Medulla - secretion Adrenals. Interrenals Adrenomedullary hormones. Regulation Animals Biochemistry Biological and medical sciences catecholamines Catecholamines - metabolism Cattle chromaffin cells Chromaffin Granules - metabolism Chromaffin Granules - secretion Electric Conductivity Electrochemistry Electrodes electrophysiology Exocytosis - physiology Fundamental and applied biological sciences. Psychology fusion Humanities and Social Sciences letter Mathematics Molecules multidisciplinary release Science Science (multidisciplinary) Stochastic Processes Vertebrates: endocrinology
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container_title	Nature (London)
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creator	Chow, Robert H von Rüden, Ludolf Neher, Erwin
description	I N synapses, a rise in presynaptic intracellular calcium leads to secretory vesicle fusion in less than a millisecond, as indicated by the short delay from excitation to postsynaptic signal 1–4 . In non-synaptic secretory cells, studies at high time resolution have been limited by the lack of a detector as fast and sensitive as the postsynaptic membrane. Electrochemical methods may be sensitive enough to detect catecholamines released from single vesicles 5,6 . Here, we show that under voltage-clamp conditions, stochastically occurring signals can be recorded from adrenal chromaffin cells using a carbon-fibre electrode as an electrochemical detector. These signals obey statistics characteristic for quantal release; however, in contrast to neuronal transmitter release, secretion occurs with a significant delay after short step depolarizations. Furthermore, we identify a pedestal or 'foot' at the onset of unitary events which may represent the slow leak of catecholamine molecules out of a narrow 'fusion pore' before the pore dilates for complete exocytosis.
doi_str_mv	10.1038/356060a0
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Regulation ; Animals ; Biochemistry ; Biological and medical sciences ; catecholamines ; Catecholamines - metabolism ; Cattle ; chromaffin cells ; Chromaffin Granules - metabolism ; Chromaffin Granules - secretion ; Electric Conductivity ; Electrochemistry ; Electrodes ; electrophysiology ; Exocytosis - physiology ; Fundamental and applied biological sciences. Psychology ; fusion ; Humanities and Social Sciences ; letter ; Mathematics ; Molecules ; multidisciplinary ; release ; Science ; Science (multidisciplinary) ; Stochastic Processes ; Vertebrates: endocrinology</subject><ispartof>Nature (London), 1992-03, Vol.356 (6364), p.60-63</ispartof><rights>Springer Nature Limited 1992</rights><rights>1992 INIST-CNRS</rights><rights>Copyright Macmillan Journals Ltd. 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subjects	adrenal glands Adrenal Medulla - cytology Adrenal Medulla - secretion Adrenals. Interrenals Adrenomedullary hormones. Regulation Animals Biochemistry Biological and medical sciences catecholamines Catecholamines - metabolism Cattle chromaffin cells Chromaffin Granules - metabolism Chromaffin Granules - secretion Electric Conductivity Electrochemistry Electrodes electrophysiology Exocytosis - physiology Fundamental and applied biological sciences. Psychology fusion Humanities and Social Sciences letter Mathematics Molecules multidisciplinary release Science Science (multidisciplinary) Stochastic Processes Vertebrates: endocrinology
title	Delay in vesicle fusion revealed by electrochemical monitoring of single secretory events in adrenal chromaffin cells
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