INVESTIGADORES
BOUZAT Cecilia Beatriz
artículos
Título:
Effect of chemical modification of extracellular histidyl residues on the channel properties of the nicotinic acetylcholine receptor
Autor/es:
BOUZAT, C.; LACORAZZA, H.D.; BISCOGLIO DE JIMENEZ BONINO, M.; BARRANTES, F.J.
Revista:
PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY
Editorial:
SPRINGER
Referencias:
Año: 1993 vol. 423 p. 365 - 371
ISSN:
0031-6768
Resumen:
We have examined the effect of chemical modification with diethyl
pyrocarbonate (DEP) on the properties of acetylcholine (ACh)-activated
channels in the cloned muscle-cell line BC3H-1. After protein
modification, patch-clamp recordings showed alterations in the kinetics
of the nicotinic acetylcholine receptor (AChR) channel. The major effect
was observed in the channel mean open time, which was reduced up to
about 12-fold at 466 microM DEP. The specificity of the effect was first
established through comparison with both untreated cells and cells
treated with inactivated DEP. Consistent with an increase in the number
of unprotonated histidine residues (pKa = 6.0), this effect increased
concomitantly with the pH of the reaction medium, being faster at pH 8
than at pH 6. The changes were dependent on time and DEP concentration,
with an apparent EC50 = 114 microM. Modified channels also showed an
increase in the number of events per burst of openings together with a
decrease in burst durations. The amplitude of the channel-closed time
component of about 1 ms increased with respect to the
longest-duration-closed component. The number of alpha-bungarotoxin
sites was slightly reduced after the modification, without affecting
ligand binding affinity. The results suggest that DEP affects
extracellular histidine residues involved in the ion translocation
function of the AChR, but not its toxin-recognition ability. DEP could,
therefore, induce a dissociation between toxin and agonist binding, as
is often observed in neuronal AChR.