A prolonged post-tetanic hyperpolarization in rat hippocampal pyramidal cells in vitro
The post-tetanic sequelae of trains of synaptic stimuli (50 pulses at 5 or 10 Hz) were studied with intracellular recordings from rat hippocampal neurons in vitro. In a large proportion of CA1 neurons, stimulation of afferent fibers was followed by a prolonged membrane hyperpolarization (peak amplit...
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Veröffentlicht in: | Brain research 1990-06, Vol.521 (1), p.118-124 |
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Zusammenfassung: | The post-tetanic sequelae of trains of synaptic stimuli (50 pulses at 5 or 10 Hz) were studied with intracellular recordings from rat hippocampal neurons in vitro. In a large proportion of CA1 neurons, stimulation of afferent fibers was followed by a prolonged membrane hyperpolarization (peak amplitude approximately 6 mV) that was associated with a decrease in neuronal input resistance (approximately 33%) that lasted from tens of seconds to over 1 min. Antidromic stimulation or activation of cells with intracellular current injection did not elicit this post-tetanic hyperpolarization (PTH). The PTH could be elicited in chloride (Cl
−)-loaded cells, its null potential shifted in response to changes in extracellular potassium ([K
+]
o), and it was significantly reduced by 5–10 mM extracellular cesium (Cs
+). The K
+-dependent PTH may also be calcium (Ca
2+) dependent as its amplitude and associated conductanceincrease were sensitive to changes in [Ca
2+]
o. The PTH was enhanced by treatments that increase Ca
2+ entry into cells including perfusion with elevated [Ca
2+]
o, with picrotoxin or with tetraethylammonium ion (TEA). The K
+ conductance blocker 4-AP had no consistent effect on the PTH. The PTH was potently blocked by the membrane-permeant forms of cAMP, dibutyryl- and 8-bromo-cAMP. However, phorbol esters that activate protein kinase C and carbachol, which usually block the same potential that is blocked by cAMP, did not depress the PTH. The cardiac glycosides dihydro-ouabain and strophanthidin had only small and variable effects on the PTH. We suggest that prolonged synaptic stimulation activates a novel K
+ conductance that may be important in regulating the membrane potential during periods of repetitive neuronal firing in many hippocampal neurons. |
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ISSN: | 0006-8993 1872-6240 |
DOI: | 10.1016/0006-8993(90)91531-K |