Impaired function of numerically augmented Fc-receptors on granulocytes in a HLA B8+ patient with palmoplantar pustulosis

TNF alpha primes polymorphonuclear leukocytes for an enhanced respiratory burst to a similar extent as bacterial lipopolysaccharide

We examined whether preincubating polymorphonuclear leukocytes (PMN) with TNF alpha would result in an enhanced respiratory burst upon subsequent stimulation by various agents. Bacterial lipopolysaccharide (LPS), a known primer of PMN, was used as control. We found that both LPS (0.01 to 10.0 microgram/ml) and recombinant TNF alpha (0.001 to 1.0 microgram/ml) act as direct stimulants of PMN as measured by chemiluminescence. Sixty minutes of preincubation of PMN with 1 microgram/ml TNF alpha or 10 micrograms/ml LPS resulted in similar priming for the respiratory burst elicited by opsonized zymosan, phorbol myristate acetate, zymosan, zymosan-activated serum, aggregated immunoglobulin, and f-met-leu-phe (FMLP) depending on the method of measurement used, i.e., chemiluminescence, production of O2-, and H2O2. Priming with TNF alpha for an enhanced response to stimulation by FMLP could be abrogated by anti-TNF alpha antibody. Cell-surface receptor numbers and binding-affinity constants for FMLP remained stable under conditions leading to priming. We conclude that TNF alpha is able to prime PMN for an enhanced respiratory burst to a similar extent as with LPS. Because PMN cell-surface receptors for FMLP are unaltered by priming, the enhanced respiratory burst seems to be due to changes in intracellular metabolism.