Exudation primes human and guinea pig neutrophils for subsequent responsiveness to the chemotactic peptide N-formylmethionylleucylphenylalanine and increases complement component C3bi receptor expression.

W Zimmerli; B Seligmann; J I Gallin

doi:10.1172/JCI112391

Published March 1, 1986 - More info

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Abstract

After circulating in the vascular system a short time, polymorphonuclear leukocytes (PMN) migrate to extravascular sites in response to chemotactic stimuli. Prestimulation of PMN in vitro by secretagogues has been shown to increase their number of N-formylmethionylleucylphenylalanine (fmet-leu-phe) and complement component C3bi (CR3) receptors. We investigated whether the same phenomenon occurred in vivo, comparing characteristics of human skin chamber and guinea pig peritoneal exudate and blood PMN. Exudate PMN of both species contained approximately 28% less of the specific granule marker vitamin B12-binding protein (P less than 0.01) but a similar amount of the azurophil granule marker beta-glucuronidase. The total number of fmet-leu-phe receptors was 5.9 times higher in guinea pig exudate than in blood PMN (P less than 0.01) and 2.9 times higher in human exudate than in blood PMN (P less than 0.02). All exudate PMN and most blood PMN preparations showed a high affinity receptor (Kd approximately 2.3 X 10(-8) M) and a low affinity receptor (approximately 1.5 X 10(-7) M). The upregulation of fmet-leu-phe receptors in exudate PMN correlated with an improved responsiveness to fmet-leu-phe induced membrane depolarization, oxidative metabolism, and chemotaxis. In addition, the concentration of fmet-leu-phe that produced a half-maximal response of chemotaxis, superoxide production, and membrane potential depolarization was 10-fold lower in exudate PMN than in blood PMN. Human exudate PMN had a twofold increased C3bi receptor expression compared with blood PMN. Thus, a preferential loss of specific granules is associated with increased number of high and low affinity fmet-leu-phe receptors and increased C3bi receptor expression not only in vitro, but also in vivo. The data indicate that exudation primes PMN for their subsequent responsiveness to fmet-leu-phe, a modification that may be crucial for efficient antimicrobial host defense.

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