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Reactive oxygen species limit neutrophil life span by activating death receptor signaling

2004; Elsevier BV; Volume: 104; Issue: 8 Linguagem: Inglês

10.1182/blood-2004-01-0191

1528-0020

Dagmar Scheel‐Toellner, Keqing Wang, Rachel Craddock, Paul R. Webb, Helen M. McGettrick, Lakhvir K. Assi, Neal Parkes, Louise E. Clough, Erich Gulbins, Mike Salmon, Janet M. Lord,

S100 Proteins and Annexins

Neutrophils are abundant, short-lived leukocytes, and their death by apoptosis is central to hemostasis and the resolution of inflammation, yet the trigger for their entry into apoptosis is unknown. We show here that death receptor signaling, including CD95 death-inducing signaling complex (DISC) formation and caspase 8 activation, occurred early in neutrophil apoptosis. However, death receptor ligation was not required for apoptosis, suggesting a novel mechanism for caspase 8 activation. We detected ceramide generation and clustering of CD95 in lipid rafts early in neutrophil apoptosis, and neutrophil apoptosis and ceramide generation were both significantly inhibited in acid sphingomyelinase knockout (ASM(-/-)) mice compared to wild-type littermates. Further studies revealed that ceramide generation, CD95 clustering, and neutrophil apoptosis were dependent on reactive oxygen species (ROSs) and were preceded by a fall in reduced glutathione levels. We propose that accumulation of ROSs, as a consequence of altered redox status, initiates ligand-independent death receptor signaling via activation of ASM and clustering of preformed DISC components in lipid rafts and is therefore a primary factor limiting neutrophil life span.