1. Hyperbaric oxygen exposure temporarily reduces Mac-1 mediated functions of human neutrophils
- Author
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Julie Scruggs, Angel Delgado, Elizabeth Gutierrez, John E. Kalns, Debra M. Niemeyer, E George Wolf, Doug Warren, Eleanor Ayala, Robert A Bowden, and Janae D. Lane
- Subjects
Hyperbaric Oxygenation ,biology ,Uropod ,Neutrophils ,Immunology ,Zymosan ,Ischemia ,Macrophage-1 Antigen ,CD18 ,Stimulation ,Pharmacology ,In Vitro Techniques ,medicine.disease ,Respiratory burst ,chemistry.chemical_compound ,chemistry ,Integrin alpha M ,medicine ,biology.protein ,Immunology and Allergy ,Humans ,Reperfusion injury ,Respiratory Burst - Abstract
Highly elevated partial pressures of oxygen achievable during hyperbaric oxygenation (HBO) have been shown to reduce leukocyte sequestration following ischemia/reperfusion injury suggesting a clinical role for HBO in treatment of various disease states characterized by transient ischemia. Previous studies have suggested that this effect may be due to inhibition of beta2-integrin function. In this study the effect of HBO on various CD11b/CD18 (Mac-1) mediated neutrophil functions was investigated in healthy human subjects. HBO 3.0 ATA, 23 m reduced adhesion 50% at 2 h with return to pre-HBO levels by 6 h. Homotypic aggregation, a Mac-1 dependent function, under fluid shear following stimulation with f-MLP was reduced from 20+/-2.6 to 3.4+/-1.0% 2 h after HBO. However, HBO did not inhibit adhesion to IL-1beta stimulated HUVEC. Mac-1 mediated oxidative burst induced by opsonized zymosan was reduced 38.2+/-10.6% (P0.05) by HBO. However, oxidative burst induced by PMA or f-MLP was not affected. HBO did not alter the distribution of neutrophils displaying morphologies associated with stimulation (ruffled, bipolar, uropod) over a 24 h period after HBO nor did HBO change the percentages of mature versus immature cells. Taken together these findings demonstrate that HBO specifically inhibits Mac-1 mediated functions.
- Published
- 2002