Abstract
Neutrophil granulocyte (neutrophil) apoptosis plays a key role in determining inflammation in infectious and non-infectious settings. Recent work has shown that inhibitors of cyclin-dependent kinases (cdk) such as roscovitine can potently induce neutrophil apoptosis and reduce inflammation. Using a conditional Hoxb8-expression system we tested the participation of Bcl-2-family proteins to roscovitine-induced apoptosis in mouse neutrophils and in neutrophil progenitor cells. Bcl-2 strongly protected against roscovitine-induced apoptosis in neutrophils. The isolated loss of either Bim or noxa provided significant, partial protection while protection through combined loss of Bim and noxa or Bim and Puma was only slightly greater than this individual loss. The only substantial change in protein levels observed was the loss of Mcl-1, which was not transcriptional and was inhibited by proteasome blockade. In progenitor cells there was no protection by the loss of Bim alone but substantial protection by the loss of both Bim and Puma; surprisingly, strongest protection was seen by the isolated loss of noxa. The pattern of protein expression and Mcl-1-regulation in progenitor cells was very similar to the one observed in differentiated neutrophils. In addition, roscovitine strongly inhibited proliferation in progenitor cells, associated with an accumulation of cells in G2/M-phase.
Highlights
Neutrophil granulocytes are produced at a high rate in the bone marrow and released into the peripheral blood [1]. This massive production is counter-acted by rapid apoptosis the precise life-span of neutrophils in human peripheral blood is contentious at present [2,3,4]
Cells used for this study had the genotypes wt, Bcl-2transgenic or deficient for individual or combinations of pro-apoptotic BH3-only proteins (Bim-/, Noxa-/, Bim/Puma-/- and Bim/Noxa-/(double-deficient)). These proteins are the main candidates for roles in roscovitine-induced apoptosis and were selected on the basis of their role in neutrophil spontaneous apoptosis [24]
For the analysis of apoptosis-induction by roscovitine in mature neutrophils, the cells were differentiated by oestrogenwithdrawal for 4 days in the presence of stem cell factor (SCF)
Summary
Neutrophil granulocytes (neutrophils) are produced at a high rate in the bone marrow (approximately 1011 per day in healthy humans) and released into the peripheral blood [1]. This massive production is counter-acted by rapid apoptosis the precise life-span of neutrophils in human peripheral blood is contentious at present [2,3,4]. If apoptosis is experimentally inhibited, neutrophils continue to function and in the presence of microbial stimuli maintain their proinflammatory activity [6]. Numerous microbial and cellular, host-derived inflammatory mediators can inhibit apoptosis in neutrophils, which very likely prolongs their activity at inflammatory sites [1]
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