Neutrophils and Extracellular Traps in Microbial Infections
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Decades ago, neutrophil granulocytes have been recognized as professional phagocytes. In their granules they store a massive array of antimicrobial enzymes and peptides which they can release either to the outside or into the phagosome, where phagocytosed microorganisms are quickly killed. Some years ago a different antimicrobial function of neutrophils was discovered: once stimulated, neutrophils can undergo a cell death program that induces massive structural changes and finally leads to the formation of Neutrophil Extracellular Traps (NETs), which can bind and kill microorganisms outside the cell. In this review, the current knowledge about antimicrobial properties of NETs is summarized and microbial strategies to escape NETs are discussed.Keywords:
Neutrophil Extracellular Traps
Respiratory burst
Zymosan
Neutrophil Extracellular Traps
Priming (agriculture)
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Rab20, a member of the Rab GTPase family, is known to be involved in membrane trafficking, however its implication in FcγR-mediated phagocytosis is unclear. We examined the spatiotemporal localization of Rab20 during phagocytosis of IgG-opsonized erythrocytes (IgG-Es) in RAW264 macrophages. By the live-cell imaging of fluorescent protein-fused Rab20, it was shown that Rab20 was transiently associated with the phagosomal membranes. During the early stage of phagosome formation, Rab20 was not localized on the membranes of phagocytic cups, but was gradually recruited to the newly formed phagosomes. Although Rab20 was colocalized with Rab5 to some extent, the association of Rab20 with the phagosomes persisted even after the loss of Rab5 from the phagosomal membranes. Then, Rab20 was colocalized with Rab7 and Lamp1, late endosomal/lysosomal markers, on the internalized phagosomes. Moreover, our analysis of Rab20 mutant expression revealed that the maturation of phagosomes was significantly delayed in cells expressing the GDP-bound mutant Rab20-T19N. These data suggest that Rab20 is an important component of phagosome and regulates the phagosome maturation during FcγR-mediated phagocytosis.
Rab
LAMP1
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During phagocytosis, endosomes both contribute with membrane to forming phagosomes and promote phagosome maturation. However, how these vesicles are delivered to the phagocytic cup and the phagosome has been unknown. Here, we show that Protrudin-mediated endoplasmic reticulum (ER)-endosome contact sites facilitate anterograde translocation of FYCO1 and VAMP7-positive late endosomes and lysosomes (LELys) to forming phagocytic cups in a retinal pigment epithelial-derived cell line (RPE1). Protrudin-dependent phagocytic cup formation required SYT7, which promotes fusion of LELys with the plasma membrane. RPE1 cells perform phagocytosis of dead cells (efferocytosis) that expose phosphatidylserine (PS) on their surface. Exogenous addition of apoptotic bodies increased the formation of phagocytic cups, which further increased when Protrudin was overexpressed. Overexpression of Protrudin also led to elevated uptake of silica beads coated with PS. Conversely, Protrudin depletion or abrogation of ER-endosome contact sites inhibited phagocytic cup formation resulting in reduced uptake of PS-coated beads. Thus, the Protrudin pathway delivers endosomes to facilitate formation of the phagocytic cup important for PS-dependent phagocytosis.
efferocytosis
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Abstract Acute inflammatory responses to invading bacteria such as Staphylococcus aureus include mobilization of polymorphonuclear leukocytes (PMN) and extracellular group IIA phospholipase A2 (gIIA-PLA2). Although accumulating coincidentally, the in vitro anti-staphylococcal activities of PMN and gIIA-PLA2 have thus far been studied separately. We now show that degradation of S. aureus phospholipids during and after phagocytosis by human PMN requires the presence of extracellular gIIA-PLA2. The concentration of extracellular gIIA-PLA2 required to produce bacterial digestion was reduced 10-fold by PMN. The effects of added gIIA-PLA2 were greater when present before phagocytosis but even apparent when added after S. aureus were ingested by PMN. Related group V and X PLA2, which are present within PMN granules, do not contribute to bacterial phospholipid degradation during and after phagocytosis even when added at concentrations 30-fold higher than that needed for action of the gIIA-PLA2. The action of added gIIA-PLA2 required catalytically active gIIA-PLA2 and, in PMN, a functional NADPH oxidase but not myeloperoxidase. These findings reveal a novel collaboration between cellular oxygen-dependent and extracellular oxygen-independent host defense systems that may be important in the ultimate resolution of S. aureus infections.
Phagocyte
Neutrophil Extracellular Traps
Phospholipase A
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A method for evaluation of human neutrophil granulocyte function based on the combined determination of total and extracellular bacteria is described. The total number of surviving bacteria is assessed by the determination of colony forming units (CFU) after hypotonic lysis of granulocytes. Extracellular viable bacteria can be determined by the incorporation of 14C-leucine or 3H-thymidine into bacterial macromolecules since there is a linear relationship between macromolecular synthesis and bacterial number and insignificant amounts of both 14C-leucine and 3H-thymidine is taken up by intracellular viable organisms. This method might be suitable for the differentiation of defects in phagocytosis and intracellular killing of various bacteria.
Thymidine
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Abstract Phagocytes engulf unwanted particles into phagosomes that then fuse with lysosomes to degrade the enclosed particles. Ultimately, phagosomes must be recycled to help recover membrane resources that were consumed during phagocytosis and phagosome maturation, a process referred to as phagosome resolution. Little is known about phagosome resolution, which may proceed through exocytosis or membrane fission. Here, we show that bacteria-containing phagolysosomes in macrophages undergo fragmentation through vesicle budding, tubulation, and constriction. Phagosome fragmentation requires cargo degradation, the actin and microtubule cytoskeletons, and clathrin. We provide evidence that lysosome reformation occurs during phagosome resolution since the majority of phagosome-derived vesicles displayed lysosomal properties. Importantly, we show that clathrin-dependent phagosome resolution is important to maintain the degradative capacity of macrophages challenged with two waves of phagocytosis. Overall, our work suggests that phagosome resolution contributes to lysosome recovery and to maintain the degradative power of macrophages to handle multiple waves of phagocytosis. Summary Phagocytes engulf particles into phagolysosomes for degradation. However, the ultimate fate of phagolysosomes is undefined. Lancaster, Fountain et al. show that phagosomes fragment to reform lysosomes in a clathrin-dependent manner. This process helps maintain the degradative capacity of phagocytes for subsequent rounds of phagocytosis.
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As part of an innate immune response, macrophages engulf pathogens into phagosomes for degradation through a process known as phagocytosis. These newly formed phagosomes progressively mature and fuse with early and late endosomes and lysosomes to form phagolysosomes, where pathogens are degraded by hydrolytic enzymes. Phosphatidylinositol‐3‐phosphate [PtdIns(3)P] and phosphatidylinositol‐3,5‐bisphosphate [PtdIns(3,5)P 2 ] are signaling lipids that recruit a unique set of effector proteins involved in distinct stages of membrane traffic to govern the function of early and late endosomes, respectively. Phagosome maturation involves the transient expression of PtdIns(3)P on early phagosomal membranes. Subsequently, PtdIns(3)P can be converted to PtdIns(3,5)P 2 by the lipid kinase PIKfyve. In this study, a pharmacological approach is employed to dissect the individual roles of PtdIns(3)P and PtdIns(3,5)P 2 in phagocytosis, phagosome maturation and the endosomal system. Our immunofluorescence data show that RAW264.7 macrophages treated with MF4, a selective inhibitor of PIKfyve, display a moderate defect in endocytosis and phagosomal acquisition of lysosomal‐associated membrane protein 1 (LAMP‐1), while phagocytosis and the degradative capacity of lysosomes remain unperturbed. Funded by Ryerson University and NSERC.
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The formation of bacterial biofilms is increasingly recognised as the leading cause of chronic infections. It limits the application of implant materials including catheters, heart valves, or orthopaedic prostheses. It is generally assumed that the infection persists because bacteria organised as biofilms escape the host defence mechanisms. Nevertheless, when studying patients with infected implants, we found a massive infiltration of leukocytes particularly polymorphonuclear neutrophils, PMN, into the site of infection, which led to the question, whether the PMN interact with the bacterial biofilm or not. The interaction of human PMN with Staphylococcus aureus biofilms was studied in vitro. S.aureus was cultivated on glass cover slips for various times under conditions allowing formation of biofilms. Adherence of PMN to biofilms and phagocytosis of the bacteria were observed by confocal laser scan microscopy and time lapse video microscopy. Migration of PMN on and into the biofilm was identified as being phagocytosis, apparent as uptake of bacteria into the cell. Concominantly, in the wake of migrating PMN bacteria depleted zones appeared, which increased in size with time. In addition to phagocytosis, release from PMN of DNA and also of elastase was seen, suggesting the formation of neutrophil extracellular traps (NETs). So far, the signal for DNA release and NET formation has not been identified; of note is, however, that they occurred preferentially on established “old” biofilms and in the absence of the opsonising human serum, while phagocytosis was most efficient with developing “young” biofilms. Taken together, our data provide evidence that bacteria in biofilms are not entirely protected against host defence but that phagocytosis is still possible, especially when the biofilm is opsonised with human serum. Whether NET formation also contributes to bacteria killing in biofilms cannot be decided as yet but remains an attractive alternative.
Neutrophil Extracellular Traps
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The best described function of the adaptor complex-1 (AP-1) is to participate in the budding of clathrin-coated vesicles from the trans-Golgi network and endosomes. Here, we show that AP-1 is also localized to phagocytic cups in murine macrophages as well as in Dictyostelium amoebae. AP-1 is recruited to phagosomal membranes at this early stage of phagosome formation and rapidly dissociates from maturing phagosomes. To establish the role of AP-1 in phagocytosis, we made used of Dictyostelium mutant cells (apm1(-) cells) disrupted for AP-1 medium chain. In this mutant, phagocytosis drops by 60%, indicating that AP-1 is necessary for efficient phagocytosis. Furthermore, phagocytosis in apm1(-) cells is more affected for large rather than small particles, and cells exhibiting incomplete engulfment are then often observed. This suggests that AP-1 could participate in the extension of the phagocytic cup. Interestingly, macropinocytosis, a process dedicated to fluid-phase endocytosis and related to phagocytosis, is also impaired in apm1(-) cells. In summary, our data suggest a new role of AP-1 at an early stage of phagosome and macropinosome formation.
Pinocytosis
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Budding
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