Spin-label detection of hemoglobin-membrane interaction at physiological pH.

The interaction between hemoglobin and the cytoplasmic surface of human erythrocyte membranes at physiological pH was studied by monitoring the electron paramagnetic resonance (EPR) signal of spin-labeled membrane ghosts in hemoglobin solutions of various concentrations. The EPR spectra indicate the existence of a significant hemoglobin-membrane interaction which exhibits a substantial hemoglobin concentration dependence over the concentration range 0-12 mg/mL. An equilibrium binding model yields a hemoglobin-membrane dissociation constant, Kd, on the order of 10(-4) M, at and above physiological pH; the interaction is classified as very low-affinity binding. The interaction increases significantly when the pH is decreased. Half-saturation of the binding sites occurs at a ratio of about 10(8) hemoglobins per cell.