Oxygen-independent antimicrobial action in sphingosine-treated neutrophils.

Sphingosine is reported to inhibit the oxidative burst and superoxide anion production of human polymorphonuclear neutrophils (PMN) phagocytosing in atmospheric oxygen (Wilson et al., 1986). We have confirmed its effect on superoxide production and examined the antimicrobial phagocytic capacity of PMN treated with sphingosine, comparing them with PMN, untreated but phagocytosing either under anaerobic conditions or in atmospheric oxygen. Sphingosine just like anaerobiosis partially inhibited, but did not eliminate, the bactericidal activity of PMN when compared to non-treated aerobic cells. In fact, sphingosine-treated PMN mimicked killing of Staphylococcus aureus (S. aureus) and Serratia marcescens (S. marcescens) due to anaerobic PMN. Moreover, our results with Salmonella typhimurium and sphingosine-treated cells duplicated results this laboratory published previously about comparative killing of Salmonella in aerobic versus anaerobic neutrophils. In these studies sphingosine-treated PMN took up bacteria as avidly as untreated PMN and retained their viability, as assessed by trypan blue exclusion. While sphingosine should not be completely substituted for anaerobic studies, it is a convenient screening reagent for the study of non-oxidative killing mechanisms of PMN. Results achieved with anaerobic and with sphingosine-treated cells suggest that O2-independent antimicrobial action is substantially more powerful than has been generally acknowledged.