| ATP-sensitive K+ channels are functional in expiratory neurones of normoxic cats. | |||||||||||
Abstract | |||||||||||
| 1. We analysed spontaneously active expiratory neurones (n = 48) of anaesthetized cats for the presence of ATP-sensitive K+ (KATP) channels. 2. Intracellular injection of ATP reversibly depolarized neurones during all phases of the respiratory cycle. During expiration, membrane potential depolarized by an average of 1.5 +/- 0.1 mV leading to a 25% increase of discharge frequency. During inspiration, ATP induced a 1.8 +/- 0.2 mV depolarization, which was accompanied by a maximum of 20% increase of input resistance (Rn). 3. Extracellular application of diazoxide, an agonist of KATP channels, resulted in reversible membrane hyperpolarization in 68% of neurones (n = 19). This hyperpolarization (2.5 mV during expiration and 3.1 mV during inspiration) was accompanied by a 22% decrease in Rn. 4. Extracellular application of tolbutamide and glibenclamide, two antagonists of KATP channels, evoked reversible depolarizations in 76% of neurones (n = 21). The depolarization was relatively constant throughout the respiratory cycle (1.4 mV during expiration and 2.3 mV during inspiration). Rn increased by 22%. 5. The same sulphonylureas also changed the steepness of membrane depolarization when neurones escaped spontaneous synaptic inhibition during postinspiration. Extracellularly applied tolbutamide and glibenclamide increased the steepness of depolarization by 21%, while diazoxide reduced it by 20%. 6. Antagonism of drugs was verified by simultaneous extra- and intracellular application of diazoxide and glibenclamide, respectively. 7. During voltage clamp at holding potential at -60 to -67 mV, intracellular or extracellular application of tolbutamide and glibenclamide blocked a persistent outward current. 8. We conclude that KATP channels are functional in expiratory neurones of adult cats and contribute to the control of excitability even during normoxia. | |||||||||||
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