RESUMO
Activation of some lipoxygenases (LOX) is found to be related to the selective membrane binding upon cell stimulation. In this study, a systematic analysis of the effect of the lipid composition on the membrane binding efficiency, Ca(2+) affinity, and enzymatic activity of 11R-LOX was performed. The analysis of the membrane targeting by fluorometric and surface plasmon resonance measurements in the absence of Ca(2+) showed an exclusive binding of 11R-LOX to the anionic phospholipids (phosphatidylinositol < phosphatidylglycerol ≈ phosphatidylserine) containing model membranes. The presence of Ca(2+) enhanced the rate of interaction and influenced its mode. The modulation of the activity of 11R-LOX indicated that (i) Ca(2+) binding is a prerequisite for productive membrane association, (ii) the reaction of 11R-LOX with arachidonic acid coincided with and was driven by its Ca(2+)-mediated membrane association, and (iii) phosphatidylethanolamine and anionic phospholipids had a synergistic effect on the Ca(2+) affinity, in line with a target-activated messenger affinity mechanism [Corbin, J. A., et al. (2007) Biochemistry 46, 4322-4336]. According to the mechanism proposed in this report, 11R-LOX can bind to the membranes in two different modes and the efficiency of productive membrane binding is determined by a concerted association of Ca(2+) and lipid headgroups.
