A change from HCO3(-)-CO2- to hepes-buffered medium modifies membrane properties of rat CA1 pyramidal neurones in vitro.
AUTOR(ES)
Church, J
RESUMO
1. Intracellular recordings were obtained from CA1 pyramidal neurones in rat hippocampal slices. Perfusion with a HCO3(-)-CO2-free, HEPES-buffered medium at pH 7.4 produced a wide variety of reversible effects on neuronal excitability, compared to responses obtained under standard (21 mM-HCO3-, 5% CO2, pH 7.4) conditions. 2. Introduction of HCO3(-)-CO2-free medium most commonly elicited, within 5-20 min, a fall in resting membrane potential (Vm), a rise in threshold for Na(+)-dependent action potential generation, and a reduction in input resistance. Anomalous inward rectification in the hyperpolarizing direction and subthreshold inward rectification were commonly reduced in HEPES-buffered medium. More prolonged exposure (> or = 25 min) to HCO3(-)-CO2-free medium produced, on occasion, Na+ spike inactivation. 3. The amplitudes of the fast and medium after-hyperpolarizations (AHPs) following a single depolarizing current-evoked action potential were attenuated during perfusion with HEPES-buffered medium at pH 7.4, as was the composite AHP following a train of action potentials. 4. Perfusion with HEPES-buffered medium at pH 7.4 reduced the degree of spike frequency adaptation and abolished depolarizing current-evoked burst-firing behaviour when this was present under standard conditions. 5. In tetrodotoxin (TTX)- and tetraethylammonium (TEA)-poisoned neurones, perfusion with HCO3(-)-CO2-free medium at pH 7.4 slightly raised the threshold for activation of Ca(2+)-dependent potentials and slightly reduced their duration, compared to responses obtained in HCO3(-)-CO2-buffered medium at the same pH. The AHP following the Ca2+ spike was, however, markedly attenuated. 6. Perfusion with a low-pH HCO3(-)-CO2-buffered medium (7 mM-HCO3-, 5% CO2, pH 6.9) produced changes qualitatively similar to those observed during perfusion with HEPES-buffered medium at pH 7.4. Raising the pH of the HEPES-buffered medium to 7.8 or 7.9 reversed inconsistently and then only in part the changes noted on the transition from a HCO3(-)-CO2- to a HEPES-buffered medium at the same pH (7.4). 7. The effects noted are unlikely to be due to a direct action of HEPES itself on neuronal membrane conductances. Rather, I suggest that they are likely to be caused by intracellular acidosis consequent upon the omission of HCO3- and CO2 from the extracellular medium.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1175633Documentos Relacionados
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