The toxin helothermine affects potassium currents in newborn rat cerebellar granule cells

M. Nobile, V. Magnelli, L. Lagostena, J. Mochca-Morales, L. D. Possani, G. Prestipino

Risultato della ricerca: Contributo su rivistaArticolo in rivistapeer review

Abstract

Helothermine, a recently isolated toxin from the venom of the Mexican beaded lizard Heloderma horridum horridum was tested on K+ currents of newborn rat cerebellar granule cells. In whole-cell voltageclamp experiments, cerebellar granule neurons exhibited at least two different K+ current components: a first transient component which is similar to an IA-type current, is characterized by fast activating and inactivating kinetics and blocked by 4-aminopyridine; a second component which is characterized by noninactivating kinetics, is blocked by tetraetylammonium ions and resembles the classical delayed-rectifier current. When added to the standard external solution at concentrations ranging between 0.1 and 2 μm helothermine reduced the pharmacologically isolated IA-type current component in a voltage- and dose-dependent way, with a half-maximal inhibitory concentration (IC50) of 0.52 μm. A comparison between control and nelothermine-modified peak transient currents shows a slowdown of activation and inactivation kinetics. The delayed-rectifier component inhibition was concentration dependent (IC50 = 0.86 μm) but not voltage dependent. No frequency-or use-dependent block was observed on both K+ current types. Perfusing the cells with control solution resulted in quite a complete current recovery. We conclude that helothermine acts with different affinities on two types of K+ current present in central nervous system neurons.

Lingua originaleInglese
pagine (da-a)49-55
Numero di pagine7
RivistaJournal of Membrane Biology
Volume139
Numero di pubblicazione1
DOI
Stato di pubblicazionePubblicato - apr 1994
Pubblicato esternamente

Fingerprint

Entra nei temi di ricerca di 'The toxin helothermine affects potassium currents in newborn rat cerebellar granule cells'. Insieme formano una fingerprint unica.

Cita questo