Brierley, M. J., Bauer, C. S., Lu, W., Riccardi, Daniela ![]() |
Abstract
The neuroendocrine Type 1 Dahlgren cells of the caudal neurosecretory system of the flounder display characteristic bursting activity, which may increase secretion efficiency. The firing activity pattern in these cells was voltage-dependent; when progressively depolarized, cells moved from silent (approximately −70 mV), through bursting and phasic to tonic firing (< −65 mV). Brief (10 s) evoked bursts of spikes were followed by a slow after-depolarization (ADP; amplitude up to 10 mV, duration 10–200 s), which was also voltage-dependent and could trigger a prolonged burst. The ADP was significantly reduced in the absence of external Ca2+ ions or the presence of the L-type Ca2+ channel blocker, nifedipine. BayK 8644 (which increases L-type channel open times) significantly increased ADP duration, whereas the Ca2+-activated nonselective cation channel blocker, flufenamic acid, had no effect. Pharmacological blockade of Ca2+-activated K+ channels, using apamin and charybdotoxin, increased the duration of both ADP and evoked bursts. However, action potential waveform was unaffected by either apamin/charybdotoxin, nifedipine, BayK 8644 or removal of external Ca2+. The short duration (approximately 100 ms), hyperpolarization-activated, postspike depolarizing afterpotentials (DAP), were significantly reduced by nifedipine. We propose that long duration ADPs underlie bursts and that short duration DAPs play a role in modulation of spike frequency.
Item Type: | Article |
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Date Type: | Publication |
Status: | Published |
Schools: | Biosciences |
Publisher: | Wiley-Blackwell |
ISSN: | 0953-8194 |
Last Modified: | 27 Oct 2022 08:49 |
URI: | https://orca.cardiff.ac.uk/id/eprint/63462 |
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