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| 3: Pharmacol Toxicol. 2000 Aug;87(2):63-8. |
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Studies on the prevention of nigericin action in
neuroblastoma X glioma hybrid (NG108-15) cells.
Doebler JA.
Neurotoxicology Branch, Pharmacology Division, US Army Medical Research
Institute of Chemical Defense, Aberdeen Proving Ground, MD 21010, USA.
jeffrey.doebler@amedd.army.mil
Electrophysiological analysis of neuroblastoma X glioma hybrid (NG108-15)
cells was used as an in vitro neuronal model system to evaluate antagonists of
the K+-selective carboxylic ionophore, nigericin. Changes in membrane
electrical characteristics induced by nigericin with and without the
simultaneous administration of antagonists were measured using intracellular
microelectrode techniques. Bath application of nigericin (3 microM) produced a
severe hyperpolarization and blocked the generation of action potentials in
response to electrical stimulation. Simultaneous administration of nigericin
plus the Na+-K+ pump inhibitor ouabain or drugs known to influence Ca++
signaling in cells, i.e., quinidine, compound R24571, verapamil or
haloperidol, was able to significantly attenuate the hyperpolarization. All
antagonists acted in a concentration-dependent manner. However, nigericin plus
maximally effective concentrations of ouabain (1 microM), verapamil (3 microM)
and haloperidol (3 and 10 microM) resulted in moderate-to-severe
depolarization by the end of 24 min. superfusions, suggesting that the
concentrations of antagonists were excessive and that NG108-15 cell damage had
occurred. In addition, none of the compounds studied was able to effectively
prevent nigericin-induced blockade of action potentials. Thus, none of these
antagonists appears suitable for transition to in vivo antidotal protection
studies.
PMID: 10989942 [PubMed - indexed for MEDLINE]
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