1. Academic Validation
  2. Effects of doxapram on ionic currents recorded in isolated type I cells of the neonatal rat carotid body

Effects of doxapram on ionic currents recorded in isolated type I cells of the neonatal rat carotid body

  • Brain Res. 1991 Dec 24;568(1-2):116-22. doi: 10.1016/0006-8993(91)91386-f.
C Peers 1
Affiliations

Affiliation

  • 1 Department of Pharmacology, Leeds University, U.K.
Abstract

Whole-cell patch-clamp recordings were used to investigate the effects of the respiratory stimulant doxapram on K+ and Ca2+ currents in isolated type I cells of the neonatal rat carotid body. Doxapram (1-100 microM) caused rapid, reversible and dose-dependent inhibitions of K+ currents recorded in type I cells (IC50 approximately 13 microM). Inhibition was voltage-dependent, in that the effects of doxapram were maximal at test potentials where a shoulder in the current-voltage relationship was maximal. These K+ currents were composed of both CA(2+)-activated and CA(2+)-independent components. Using high [Mg2+], low [Ca2+] solutions to inhibit CA(2+)-activated K+ currents, doxapram was also seen to directly inhibit CA(2+)-independent K+ currents. This effect was voltage-independent and was less potent (IC50 approximately 20 microM) than under control conditions, suggesting that doxapram was a more potent inhibitor of the CA(2+)-activated K+ currents recorded under control conditions. Doxapram (10 microM) was without effect on L-type Ca2+ channel currents recorded under conditions where K+ channel activity was minimized and was also without significant effect on K+ currents recorded in the neuronal cell line NG-108 15, suggesting a selective effect on carotid body type I cells. The effects of doxapram on type I cells show similarities to those of the physiological stimuli of the carotid body, suggesting that doxapram may share a similar mechanism of action in stimulating the intact organ.

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