[No authors listed]
Neutrophils play a central role in immunity and inflammation via their intrinsic ability to migrate into inflamed tissue, to phagocytose pathogens, and to kill bacterial and fungi by releasing large quantities of superoxide anions and lytic enzymes. The molecular pathways controlling neutrophil microbicidal functions are still unclear, because neutrophils have a short half-life and are resistant to genetic manipulation. Neutrophil-like cells (NLC) can be generated from myeloid progenitors conditionally immortalized with the ER-HoxB8 oncoprotein, but whether these cells can replace neutrophils in high-throughput functional assays is unclear. Here, we assess the ability of NLC derived from ER-HoxB8 progenitors to produce and to perform chemotaxis and phagocytosis. We compare the Ca2+ responses and effector functions of NLC to primary murine neutrophils and document the molecular basis of their functional differences by mRNA profiling. Pro-inflammatory cytokines enhanced the expression by NLC of neutrophil surface markers and transcription factors. Ca2+ elevations evoked in NLC by agonists, adhesion receptors, and store depletion resembled the physiological responses recorded in primary neutrophils, but NLC expressed reduced amounts of Ca2+ signaling proteins and of chemotactic receptors. Unlike their myeloid progenitors, NLC produced H2 O2 when adhered to fibronectin, migrated toward chemotactic peptides, phagocytosed opsonized particles, and generated intracellular NLC phagocytosed as efficiently as primary neutrophils but produced 50 times less duanyu1670 and migrated less efficiently toward chemoattractant. Our data indicate that NLC can replace neutrophils to study Ca2+ signaling and phagocytosis, but that their incomplete granulocytic differentiation limits their use for chemotaxis and duanyu1670 production assays.
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