Studies on the mechanisms involved in the inflammatory response in a reversed passive Arthus reaction in guinea‐pig skin: contribution of neutrophils and endogenous mediators

1 Mediators of inflammation can increase vascular permeability in at least two different ways: by acting directly on endothelial cells or, indirectly, through an incompletely understood mechanism, dependent on circulating neutrophils. Neutrophil‐dependent oedema formation has been described in the skin of rabbits, rats, hamsters, mice and man. In contrast, we presented evidence in a previous study that local oedema formation induced by i.d. injection of chemoattractants in guinea‐pig skin was neutrophil‐independent. In the present study, we sought evidence of neutrophil‐dependent oedema formation in immune‐complex‐mediated vasculitis, the reversed passive Arthus (RPA) reaction, in guinea‐pig skin. We also investigated whether haemorrhage in the RPA reaction was neutrophil‐dependent (as it is in other species) and the role of endogenous mediators of inflammation (prostaglandins, nitric oxide, histamine, PAF and leukotrienes) in contributing to the local inflammatory response. 2 In the RPA reaction, most oedema formation occurred over the first 60 min whereas 111 In‐neutrophil accumulation was still increasing from 60 to 240 min. The different kinetics of these two events suggested that they may be dissociated. 3 Oedema formation was partially inhibited by a long‐acting PAF antagonist (UK‐74,505) and an H 1 histamine receptor antagonist (mepyramine) but not by a 5‐lipoxygenase inhibitor (ZM 230487). A nitric oxide synthesis inhibitor (N G ‐nitro‐L‐arginine methyl ester, L‐NAME) suppressed oedema formation by 68% whereas a cyclo‐oxygenase inhibitor suppressed oedema by 27%. 4 111 In‐neutrophil accumulation in the RPA reaction was partially suppressed by UK‐74,505. In contrast, ZM 230487 was without effect at doses which abrogated arachidonic acid‐induced 111 In‐neutrophil accumulation. 5 The anti‐CD18 monoclonal antibody, (mAb) 6.5E F(ab′) 2 , effectively inhibited 111 In‐neutrophil accumulation induced by PAF, zymosan‐activated plasma (ZAP) and in the RPA reaction. However, oedema formation measured in the same sites was not altered. In contrast, oedema formation in the RPA reaction was partially suppressed by 6.5E whole mAb which was 2.5 times more potent than 6.5E F(ab′) 2 at inhibiting guinea‐pig neutrophil adhesion to protein‐coated plastic. Haemorrhage induced by PAF and in the RPA reaction was significantly inhibited by 6.5E F(ab′) 2 pretreatment. 6 We conclude that in the RPA reaction in guinea‐pig skin, oedema formation is partially neutrophil‐dependent as assessed by using an anti‐CD 18 mAb, whereas ZAP‐induced oedema formation is neutrophil‐independent. Haemorrhage was also dependent on neutrophil accumulation. In addition, our studies support a role for PAF in mediating both oedema formation and 111 In‐neutrophil accumulation in the RPA reaction. Endogenous release of histamine also appears to be important in mediating oedema formation suggesting that mast cells play a critical role in increases of vascular permeability in inflammatory reactions in guinea‐pig skin. Moreover, our results confirm previous findings which suggest a dominant role for nitric oxide in maintaining cutaneous blood flow in the guinea‐pig.