From the adrenergic SH-SY5Y human neuroblastoma clone, we isolated a subclone (21S) endowed with a glial-oriented phenotype. At difference from the parental clone, 21S cells responded to depolarizing stimuli with overshooting action potentials, whose repolarization phase was composed of an initial rapid episode, followed by a long-lasting plateau and a slow return to the resting potential (VREST). The action potential depolarization phase was sustained by a TTX-sensitive Na+ current, while the first repolarizing episode was produced by the scanty delayed rectifier potassium current (IKDR) expressed in 21S cells. The bulk of repolarization, including the after-hyperpolarization, was sustained by the human eag related (HERG) potassium current (IHERG) that also governs VREST in 21S cells. This double role of IHERG, together with the poor expression of IKDRs, represents a novel finding in electrophysiology, as well as gives a clue to identify a new excitable element of the complex cellular population of neuroblastoma. © 2003 Elsevier Science (USA). All rights reserved.

A HERG current sustains a cardìac-type action potential in neuroblastoma S cells / M. D'AMICO; T. BIAGIOTTI; A. ARCANGELI; E. WANKE; M. OLIVOTTO; L. FONTANA; R. RESTANO-CASSULINI ; N. LASAGNA. - In: BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS. - ISSN 0006-291X. - STAMPA. - 302:(2003), pp. 101-108.

A HERG current sustains a cardìac-type action potential in neuroblastoma S cells.

A. ARCANGELI;M. OLIVOTTO;
2003

Abstract

From the adrenergic SH-SY5Y human neuroblastoma clone, we isolated a subclone (21S) endowed with a glial-oriented phenotype. At difference from the parental clone, 21S cells responded to depolarizing stimuli with overshooting action potentials, whose repolarization phase was composed of an initial rapid episode, followed by a long-lasting plateau and a slow return to the resting potential (VREST). The action potential depolarization phase was sustained by a TTX-sensitive Na+ current, while the first repolarizing episode was produced by the scanty delayed rectifier potassium current (IKDR) expressed in 21S cells. The bulk of repolarization, including the after-hyperpolarization, was sustained by the human eag related (HERG) potassium current (IHERG) that also governs VREST in 21S cells. This double role of IHERG, together with the poor expression of IKDRs, represents a novel finding in electrophysiology, as well as gives a clue to identify a new excitable element of the complex cellular population of neuroblastoma. © 2003 Elsevier Science (USA). All rights reserved.
2003
302
101
108
M. D'AMICO; T. BIAGIOTTI; A. ARCANGELI; E. WANKE; M. OLIVOTTO; L. FONTANA; R. RESTANO-CASSULINI ; N. LASAGNA
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/310615
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