Characterization of the binding of the anti-sickling compound, BW12C, to haemoglobin. |
| |
| Authors: | M Merrett D K Stammers R D White R Wootton and G Kneen |
| |
| Abstract: | The anti-sickling agent BW12C Beddell, Goodford, Kneen, White, Wilkinson & Wootton (1984) Br. J. Pharmacol. 82, 397-407] was designed to left-shift the oxygen saturation curve of haemoglobin (HbA) by preferential binding to the oxy conformation at a single site between the terminal amino groups of the alpha-chains through Schiff's base formation, ionic and hydrophobic interactions. In the present work, Schiff's base linkages formed with 14C]BW12C were reduced with NaBH4 and the alpha- and beta-globin chains separated. Under oxy conditions at a molar ratio of 2:1, the covalently bound BW12C is localized almost exclusively on a single alpha-chain; tryptic digestion confirms the terminal amino group (alpha 1-valine) as the reaction site, in accord with the design hypothesis. However, about half the labelled BW12C is released on tetramer disruption, suggesting the presence of additional non-covalent binding. Under deoxy conditions, alpha- and beta-chains are labelled approximately equally, and at higher molar ratios additional binding in both oxy and deoxy conditions is seen. Isoelectric-focusing studies under oxy conditions show a complex pattern of modified bands for both HbA and HbA1c (blocked beta-terminal amino groups) but no modification for HbA carbamylated at both alpha- and beta-terminal amino groups or at the alpha-chains only, again confirming the alpha-terminal amino region as the main interaction site. Equilibrium dialysis measurements under oxy conditions indicate two strong binding sites with a binding constant of less than 10(-6) M and a number of weaker binding sites. The present data thus confirm that BW12C binds at the intended locus but reveal additional non-covalent binding at an undefined site, and weaker binding through Schiff's base formation with other amino groups. |
| |
| Keywords: | |
|
|
