Mode of cembranoid action on embryonic muscle acetylcholine receptor
Contribuinte(s) |
UNIVERSIDADE DE SÃO PAULO |
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Data(s) |
20/10/2012
20/10/2012
2008
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Resumo |
The mechanism of eupalmerin acetate (EUAC) actions on the embryonic muscle nicotinic acetylcholine receptor (nAChR) in BC3H-1 cells was studied by using whole-cell and single-channel patch-clamp current measurements. With whole-cell currents, EUAC did not act as an agonist on this receptor. Coapplication of 30 mu M EUAC with 50 mu M, 100 N, or 500 mu M carbamoylcholine (CCh) reversibly inhibited the current amplitude, whereas, with 20 mu M CCh, current was increased above control values in the presence of EUAC. EUAC concentration curves (0.01-40 N) obtained with 100 mu M and 500 mu M CCh displayed slope coefficients, n(H), significantly smaller than one, suggesting that EUAC bound to several sites with widely differing affinities on the receptor molecule. The apparent rate of receptor desensitization in the presence of EUAC and CCh was either slower than or equal to that obtained with CCh alone. The major finding from single-channel studies was that EUAC did not affect single-channel conductance or the ability of CCh to interact with the receptor. Instead, EUAC acted by increasing the channel closing rate constant. The results are not consistent with the competitive model for EUAC inhibition, with the sequential open-channel block model, or with inhibition by increased desensitization. The data are best accounted for by a model in which EUAC acts by closed-channel block at low concentrations, by positive modulation at intermediate concentrations, and by negative allosteric modulation of the open channel at high concentrations. (c) 2007 Wiley-Liss, Inc. |
Identificador |
JOURNAL OF NEUROSCIENCE RESEARCH, v.86, n.1, p.93-107, 2008 0360-4012 http://producao.usp.br/handle/BDPI/31457 10.1002/jnr.21468 |
Idioma(s) |
eng |
Publicador |
WILEY-LISS |
Relação |
Journal of Neuroscience Research |
Direitos |
restrictedAccess Copyright WILEY-LISS |
Palavras-Chave | #noncompetitive inhibitors #allosteric inhibition #positive modulation #eupalmerin acetate #whole-cell and single-channel patch-clamp recordings #LASER-PULSE PHOTOLYSIS #MECHANISM-BASED DISCOVERY #MICROSECOND TIME REGION #NONCOMPETITIVE INHIBITION #NATURAL-PRODUCTS #ELECTRIC ORGAN #BINDING-SITES #COCAINE #PHENCYCLIDINE #MK-801 #Neurosciences |
Tipo |
article original article publishedVersion |