Abstract
Ethanol exerts its actions in the central and peripheral nervous systems through the direct interactions with several proteins, including ligand-gated ion channels such as the nicotinic acetylcholine receptor (nAChR). The binding interaction between ethanol and sodium cholate solubilized nicotinic acetylcholine receptor protein can be detected through either NMR line broadening or T1 titration. In this paper, we examine the use of weighted Navon T1p analysis of T1 titration data for the estimation of the dissociation constant of ethanol for the nAChR. We show that Navon T1p analysis underestimates binding affinity. The application of rigorous limits for confidence intervals within a nonlinear regression analysis of this data provides a best estimate of Kd = 55 μM at 4 °C. within an unsymmetrical 90% confidence interval of [0.5, 440 μM]. Accordingly, the best estimate of the binding free energy is ΔG° = –5.4 Kcal/mole within a 90% confidence interval of [–8.0, −4.3 Kcal/mole], relative to conventional standard states.
Footnotes
† This work was supported by Natural Sciences and Engineering Research Council of Canada (RJ Cushley) and National Institutes of Health grant NS 23885 (MM. White).
↵* David.Naugler{at}utoronto.ca
↵** Deceased
Abbreviations
- C50
- concentration which elicits 50% of effective response;
- EDTA
- ethylenediaminetetraacetic acid;
- HEPES
- 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid;
- Kd
- dissociation constant, concentration at which complex is 50% dissociated;
- nAChR
- nicotinic acetylcholine receptor;
- NMR
- nuclear magnetic resonance;
- NOESY
- nuclear Overhauser effect spectroscopy;
- Pi
- inorganic phosphate, PO42−;
- NLS
- nonlinear least squares