Mouse and human neutrophils induce anaphylaxis

International audienceAnaphylaxis is a life-threatening hyperacute immediate hypersensitivity reaction. Classically, it depends on IgE, FcεRI, mast cells, and histamine. However, anaphylaxis can also be induced by IgG antibodies, and an IgG1-induced passive type of systemic anaphylaxis has been reported to depend on basophils. In addition, it was found that neither mast cells nor basophils were required in mouse models of active systemic anaphylaxis. Therefore, we investigated what antibodies, receptors, and cells are involved in active systemic anaphylaxis in mice. We found that IgG antibodies, FcγRIIIA and FcγRIV, platelet-activating factor, neutrophils, and, to a lesser extent, basophils were involved. Neutrophil activation could be monitored in vivo during anaphylaxis. Neutrophil depletion inhibited active, and also passive, systemic anaphylaxis. Importantly, mouse and human neutrophils each restored anaphylaxis in anaphylaxis-resistant mice, demonstrating that neutrophils are sufficient to induce anaphylaxis in mice and suggesting that neutrophils can contribute to anaphylaxis in humans. Our results therefore reveal an unexpected role for IgG, IgG receptors, and neutrophils in anaphylaxis in mice. These molecules and cells could be potential new targets for the development of anaphylaxis therapeutics if the same mechanism is responsible for anaphylaxis in humans

Das Eleu rokardiograiam "bei angeTborenen Herzfehle ren.

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Inhibition of renin secretion by platelet activating factor (acetylglyceryl ether phosphorylcholine) in cultured rat renal juxtaglomerular cells

Acetylglyceryl ether phosphorylcholine (AGEPC), commonly known as platelet activating factor, was found to strongly inhibit renin secretion in cultures rich in juxtaglomerular cells. This inhibitory action of AGEPC was accompanied by an enhanced calcium permeability of the cell membrane as evaluated from measurements of the uptake of 45Ca. Simultaneous addition of the calcium channel blocker verapamil abolished the effects of AGEPC on both renin secretion and calcium permeability. Furthermore, addition of AGEPC to the cell cultures led to a decrease of 32P-labeled phosphatidylinositol 4,5-bisphosphate and to an increase in 3H-labeled diacylglycerol, indicating an activation of phospholipase C by AGEPC