Neutrophil swarming: an essential process of the neutrophil tissue response

Kienle, Korbinian; Lämmermann, Tim

doi:10.1111/imr.12458

Cited by 198 publications

(204 citation statements)

References 133 publications

(400 reference statements)

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“…It is yet not clear which factors released by dying cells attract further neutrophils and induce swarming and clustering. ATP was suggested as one of these attracting molecules . Interestingly, we observed ATP to also augment aggNET formation .…”

Section: Dealing With Danger Death and Collateral Damage—how Neutrosupporting

confidence: 51%

“…During the last years, the technological progress in two‐photon intravital microscopy has enabled observation of neutrophils in vivo over extended periods of time. By this means, a remarkable neutrophil behavior was discovered that is reminiscent of the swarming of insects and is therefore referred to as neutrophil swarming . At sites of tissue injury or infection, groups of neutrophils undergo highly coordinated series of movements, followed by cell accumulation and clustering .…”

Section: Dealing With Danger Death and Collateral Damage—how Neutromentioning

confidence: 99%

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Missing in action—The meaning of cell death in tissue damage and inflammation

Muñoz

Leppkes

Fuchs

et al. 2017

Immunological Reviews

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Billions of cells die every day in higher organisms as part of the normal process of tissue homeostasis. During special conditions like in development, acute infections, mechanical injuries, and immunity, cell death is a common denominator and it exerts profound effects in the outcome of these scenarios. To prevent the accumulation of aged, superfluous, infected, damaged and dead cells, professional phagocytes act in a rapid and efficient manner to clear the battle field and avoid spread of the destruction. Neutrophils are the most abundant effector immune cells that extravasate into tissues and can turn injured tissues into gory battle fields. In peace times, neutrophils tend to patrol tissues without provoking inflammatory reactions. We discuss in this review actual and forgotten knowledge about the meaning of cell death during homeostatic processes and drive the attention to the importance of the action of neutrophils during patrolling and for the maintenance or recovery of the homeostatic state once the organism gets attacked or injured, respectively. In this fashion, we disclose several disease conditions that arise as collateral damage of physiological responses to death.

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Section: Dealing With Danger Death and Collateral Damage—how Neutrosupporting

confidence: 51%

Section: Dealing With Danger Death and Collateral Damage—how Neutromentioning

confidence: 99%

Missing in action—The meaning of cell death in tissue damage and inflammation

Muñoz

Leppkes

Fuchs

et al. 2017

Immunological Reviews

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“…During the last few years, the technological progress in 2-photon intravital microscopy has enabled the discovery of neutrophil swarming, a phenomenon characterized by highly coordinated series of neutrophil movement, followed by cell accumulation mediated by chemoattractant signals and adhesion molecules (46). Swarming is observed during infection and sterile inflammation in both mouse and human neutrophils (47). Interestingly, cell death, both in the inflamed surrounding tissue and within the neutrophil cluster itself, seems to amplify swarming.…”

Section: Discussionmentioning

confidence: 99%

Aggregated neutrophil extracellular traps resolve inflammation by proteolysis of cytokines and chemokines and protection from antiproteases

et al. 2018

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Papillon-Lefèvre syndrome (PLS) is characterized by nonfunctional neutrophil serine proteases (NSPs) and fulminant periodontal inflammation of unknown cause. Here we investigated neutrophil extracellular trap (NET)-associated aggregation and cytokine/chemokine-release/degradation by normal and NSP-deficient human and mouse granulocytes. Stimulated with solid or soluble NET inducers, normal neutrophils formed aggregates and both released and degraded cytokines/chemokines. With increasing cell density, proteolytic degradation outweighed release. Maximum output of cytokines/chemokines occurred mostly at densities between 2 × 10 and 4 × 10 neutrophils/cm. Assessment of neutrophil density in vivo showed that these concentrations are surpassed during inflammation. Association with aggregated NETs conferred protection of neutrophil elastase against α1-antitrypsin. In contrast, eosinophils did not influence cytokine/chemokine concentrations. The proteolytic degradation of inflammatory mediators seen in NETs was abrogated in Papillon-Lefèvre syndrome (PLS) neutrophils. In summary, neutrophil-driven proteolysis of inflammatory mediators works as a built-in safeguard for inflammation. The absence of this negative feedback mechanism might be responsible for the nonresolving periodontitis seen in PLS.-Hahn, J., Schauer, C., Czegley, C., Kling, L., Petru, L., Schmid, B., Weidner, D., Reinwald, C., Biermann, M. H. C., Blunder, S., Ernst, J., Lesner, A., Bäuerle, T., Palmisano, R., Christiansen, S., Herrmann, M., Bozec, A., Gruber, R., Schett, G., Hoffmann, M. H. Aggregated neutrophil extracellular traps resolve inflammation by proteolysis of cytokines and chemokines and protection from antiproteases.

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“…Neutrophils produce the neutrophil-attracting and -activating chemokine CXCL2, and neutrophilic production of CXCL2 can drive a self-amplifying feed-forward loop of localized neutrophilia that is important to defense but also a contributor to lethal lung injury (51). Neutrophil production of chemokines like CXCL10 and CXCL2 may contribute to "swarming" behavior of neutrophils (253), in which neutrophil activation amplifies the local recruitment of neutrophils within the air spaces of infected lungs (FIGURE 3). In some cases, neutrophils also can be a source of IL-17 (60,533), a cytokine driving protective immunity through the induction of CXCL5, CXCL1, G-CSF, and enhanced phagocytic antimicrobial defense (69,559).…”

Section: Neutrophilsmentioning

confidence: 99%

Integrative Physiology of Pneumonia

Quinton

Walkey

Mizgerd

2018

Physiological Reviews

205

203

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Pneumonia is a type of acute lower respiratory infection that is common and severe. The outcome of lower respiratory infection is determined by the degrees to which immunity is protective and inflammation is damaging. Intercellular and interorgan signaling networks coordinate these actions to fight infection and protect the tissue. Cells residing in the lung initiate and steer these responses, with additional immunity effectors recruited from the bloodstream. Responses of extrapulmonary tissues, including the liver, bone marrow, and others, are essential to resistance and resilience. Responses in the lung and extrapulmonary organs can also be counterproductive and drive acute and chronic comorbidities after respiratory infection. This review discusses cell-specific and organ-specific roles in the integrated physiological response to acute lung infection, and the mechanisms by which intercellular and interorgan signaling contribute to host defense and healthy respiratory physiology or to acute lung injury, chronic pulmonary disease, and adverse extrapulmonary sequelae. Pneumonia should no longer be perceived as simply an acute infection of the lung. Pneumonia susceptibility reflects ongoing and poorly understood chronic conditions, and pneumonia results in diverse and often persistent deleterious consequences for multiple physiological systems.

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Neutrophil swarming: an essential process of the neutrophil tissue response

Cited by 198 publications

References 133 publications

Missing in action—The meaning of cell death in tissue damage and inflammation

Missing in action—The meaning of cell death in tissue damage and inflammation

Aggregated neutrophil extracellular traps resolve inflammation by proteolysis of cytokines and chemokines and protection from antiproteases

Integrative Physiology of Pneumonia

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