Chloroform is a potent activator of cardiac and neuronal Kir3 channels

Chloroform is a potent activator of cardiac and neuronal Kir3 channels

Chloroform has been used over decades in anesthesia before it was replaced by other volatile anesthetics like halothane or sevoflurane. Some of the reasons were inadmissible side effects of chloroform like bradycardia or neural illness. In the present study, we identified members of the G protein-ac...

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Veröffentlicht in:Naunyn-Schmiedeberg's archives of pharmacology 2020-04, Vol.393 (4), p.573-580
Hauptverfasser: Kollert, Sina, Döring, Frank, Gergs, Ulrich, Wischmeyer, Erhard
Format: Artikel
Sprache:eng
Schlagworte:
Anesthesia
Anesthetics
Animals
Atrial Function - drug effects
Biomedical and Life Sciences
Biomedicine
Bradycardia
Bradycardia - chemically induced
Bradycardia - physiopathology
Chloroform
Chloroform - toxicity
Contraction
G Protein-Coupled Inwardly-Rectifying Potassium Channels - physiology
Halothane
Heart Atria - drug effects
Heart rate
HEK293 Cells
Humans
Life Sciences & Biomedicine
Mice
Neurons - drug effects
Neurons - physiology
Neurosciences
Oocytes
Original Article
Pharmacology & Pharmacy
Pharmacology/Toxicology
Potassium channels (inwardly-rectifying)
Science & Technology
Sevoflurane
Xenopus laevis
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Zusammenfassung:Chloroform has been used over decades in anesthesia before it was replaced by other volatile anesthetics like halothane or sevoflurane. Some of the reasons were inadmissible side effects of chloroform like bradycardia or neural illness. In the present study, we identified members of the G protein-activated inwardly rectifying potassium channel family (Kir3) expressed in Xenopus oocytes as potential common molecular targets for both the neural and cardiac effects of chloroform. Millimolar concentration currents representing a 1:10000 dilution of commercially available chloroform were used in laboratories that augment neuronal Kir3.1/3.2 currents as well as cardiac Kir3.1/3.4. This effect was selective and only observed in currents from Kir3 subunits but not in currents from Kir2 subunits. Augmentation of atrial Kir3.1/3.4 currents leads to an effective drop of the heart rate and a reduction in contraction force in isolated mouse atria.
ISSN:0028-1298
1432-1912
DOI:10.1007/s00210-019-01751-x