5-Lipoxygenase (5-LO) catalyzes the initial steps in the biosynthesis of proinflammatory leukotrienes. Upon cell activation, 5-LO translocates to the nuclear membrane where arachidonic acid is transferred by 5-LO-activating protein (FLAP) to 5-LO for metabolism. Although previous data indicate association of 5-LO with FLAP, the in situ assembly of native 5-LO/FLAP complexes remains elusive. Here, we show time-resolved 5-LO/FLAP colocalization by immunofluorescence microscopy and in situ 5-LO/FLAP interaction by proximity ligation assay at the nuclear membrane of Ca(2+)-ionophore A23187-activated human monocytes and neutrophils in relation to 5-LO activity. Although 5-LO translocation and product formation is completed within 1.5-3 min, 5-LO/FLAP interaction is delayed and proceeds up to 30 min. Though monocytes and neutrophils contain comparable amounts of 5-LO protein, neutrophils produce 3-5 times higher levels of 5-LO products due to prolonged activity, accompanied by delayed 5-LO nuclear membrane translocation. Arachidonic acid seemingly acts as adaptor for 5-LO/FLAP assembly, whereas FLAP inhibitors (MK886, 100 nM; BAY X 1005, 3 µM) disrupt the complex. We conclude that FLAP may regulate 5-LO activity in 2 ways: first by inducing an initial flexible association for efficient 5-LO product synthesis, followed by the formation of a tight 5-LO/FLAP complex that terminates 5-LO activity.
Keywords: eicosanoids; inflammation; lipoxygenases; proximity-ligation assay.
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