Platelet TLR4 activates neutrophil extracellular traps to ensnare bacteria in septic blood

Clark, Stephen P.; Adrienne, C.; Tavener, Samantha A.; McDonald, Braedon; Goodarzi, Zahra; Kelly, Margaret M.; Patel, Kamala D.; Chakrabarti, Subhadeep; McAvoy, Erin F.; Sinclair, Gary D.; Keys, Elizabeth; Allen‐Vercoe, Emma; DeVinney, Rebekah; Doig, Christopher J.; Green, Francis H. Y.; Kubes, Paul

doi:10.1038/nm1565

Cited by 1,906 publications

(2,030 citation statements)

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“…Platelets are known to express various TLRs,5 and TLR stimulation can mediate a number of thrombotic7, 8, 21 and inflammatory processes 9, 10. Platelets and leucocytes aggregate in response to TLR stimulation,9, 12 and platelets contribute to vascular inflammation via this interaction with leucocytes. This current study adds to the growing body of evidence which suggests that platelets can actively participate in limiting leucocyte functions, a mechanism which is postulated to prevent uncontrolled inflammation that would otherwise cause host damage 13.…”

Section: Discussionmentioning

confidence: 99%

“…Platelets express a range of Toll‐like receptors (TLRs),5, 6 which are responsible for mediating early immune responses to both infection and sterile injury. Activating platelet‐TLRs causes platelet activation and aggregation7, 8 alongside a number of pro‐inflammatory, antimicrobial responses 9, 10, 11. Platelet–leucocyte aggregation is a well‐characterised response to TLR stimulation,9, 12 and these platelet TLR‐mediated antimicrobial responses are facilitated, in the main, by their interaction with leucocytes.…”

Section: Introductionmentioning

confidence: 99%

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Platelets regulate leucocyte responses to Toll‐like receptor stimulation

et al. 2018

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ObjectivesPlatelets are important regulators of vascular thrombosis and inflammation and are known to express Toll‐like receptors (TLRs). Through TLRs, platelets mediate a number of responses by interacting with leucocytes. Here, we report the extent to which platelets modulate in vitro peripheral blood mononuclear cells (PBMCs) and granulocyte responses to TLR4, TLR2/1 and TLR2/6 stimulation in healthy subjects.MethodsPeripheral blood mononuclear cells and granulocytes from 10 healthy volunteers were cultured alone or cocultured with platelets. Cultures were left unstimulated or stimulated with 1 or 100 ng mL−1 of either LPS (TLR4 agonist), Pam3CSK4 (TLR2/1 agonist) or fibroblast‐stimulating lipopeptide (FSL)‐1 (TLR2/6 agonist). Neutrophil activation (CD66b expression), monocyte activation (HLA‐DR), granulocyte elastase production and PBMC cytokine and chemokine production were examined.ResultsPlatelet coculture decreased neutrophil CD66b expression in response to LPS, Pam3CSK4 and FSL‐1, and modestly decreased monocyte HLA‐DR expression in response to low‐dose LPS. Platelets reduced granulocyte elastase secretion in response to low doses of all TLR agonists tested. In response to LPS, platelet coculture reduced IL‐6, tumor necrosis factor (TNF)‐α and MIP‐1β production, and increased IL‐10 production by PBMCs. In response to FSL‐1, platelets increased IL‐6, IL‐10 and MIP‐1β production, but reduced TNF‐α production. Platelet coculture did not alter PBMC cytokine/chemokine production in response to Pam3CSK4.ConclusionThis study challenges the notion that platelets act solely in a pro‐inflammatory manner. Rather, platelets are complex immunomodulators that regulate leucocyte responses to TLR stimulation in a TLR agonist‐specific manner. Platelets may modulate leucocyte responses to dampen inflammation, and this platelet effect may play an important role in reducing inflammation‐mediated host damage.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Platelets regulate leucocyte responses to Toll‐like receptor stimulation

et al. 2018

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“…Microfluidic assays represent another microscopy-based approach to study platelet-leukocyte interactions in real time (11,69–74). Typically, isolated cells or whole blood are perfused through a chamber coated with immobilised proteins or cells, allowing precise control of soluble and cellular input.…”

Section: Methods To Measure Plasmentioning

confidence: 99%

“…Platelet-leukocyte interactions are further stabilised by crosstalk of numerous additional receptor/ligand pairs that were reviewed previously (1,5) and trigger mutual activation and release of granular content by both platelets and leukocytes, thereby modulating leukocyte function and fine-tuning immune responses (5). Importantly, platelet-leukocyte interactions facilitate leukocyte recruitment and extravasation to sites of inflammation (6,7), promote leukocyte release of pro-inflammatory mediators (8,9), oxidative burst, phagocytosis, release of neutrophil extracellular traps (NETs) (10,11), and may also dampen inflammation under some pathological conditions (12–14). …”

Section: Introductionmentioning

confidence: 99%

Measuring and interpreting platelet-leukocyte aggregates

et al. 2018

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Platelets, besides their specialised role in haemostasis and atherothrombosis, actively modulate innate and adaptive immune responses with crucial roles in immune surveillance, inflammation and host defence during infection. An important prerequisite for platelet-mediated changes of immune functions involves direct engagement with different types of leukocytes. Indeed, increased platelet-leukocyte aggregates (PLAs) within the circulation and/or locally at the site of inflammation represent markers of many thrombo-inflammatory diseases, such as cardiovascular diseases, acute lung injury, renal and cerebral inflammation. Therefore, measurement of PLAs could provide an attractive and easily accessible prognostic and/or diagnostic tool for many diseases. To measure PLAs in different (patho-)physiological settings in human and animal models flow cytometric and microscopic approaches have been applied. These techniques represent complementary tools to study different aspects relating to the involvement of leukocyte subtypes and molecules, as well as location of PLAs within tissues, dynamics of their interactions and/or dynamic changes in leukocyte and platelet behaviour. This review summarises various approaches to measure and interpret PLAs and discusses potential experimental factors influencing platelet binding to leukocytes. Furthermore, we summarise insights gained from studies regarding the underlying mechanism of platelet-leukocyte interactions and discuss implications of these interactions in health and disease.

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“…Increased endothelial expression of P‐selectin appears to be important for CAT, possibly by promoting leukocyte adhesion 7, 12. Platelet‐leukocyte interactions may also be important because neutrophil extracellular traps (NETs) can both promote platelet aggregation and activate the coagulation cascade 13, 14. At least one ongoing clinical trial (NCT02285738) aims to examine the role of anti‐platelet agents in the prevention of CAT.…”

Section: Pathogenesis Of Cancer‐associated Thrombosismentioning

confidence: 99%

Managing thrombosis in cancer patients

Wang

García

2018

Research and Practice in Thrombosis and Haemostasis

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Venous thromboembolism is a major complication in cancer patients. The basis for the strong association between cancer and thrombosis remains incompletely understood, and the optimal approaches to both the treatment and the prevention of cancer‐associated thrombosis are evolving. Here we review several important topics related to cancer‐associated thromboembolism, including the pathogenesis, prevention, and management of this disease. Wherever possible, we include evidence from clinical trials, including the results of recently published trials that compared direct oral anticoagulants to low‐molecular‐weight heparin for the treatment of cancer‐associated thrombosis.

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Platelet TLR4 activates neutrophil extracellular traps to ensnare bacteria in septic blood

Cited by 1,906 publications

References 37 publications

Platelets regulate leucocyte responses to Toll‐like receptor stimulation

Platelets regulate leucocyte responses to Toll‐like receptor stimulation

Measuring and interpreting platelet-leukocyte aggregates

Managing thrombosis in cancer patients

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