Kiril Bidzhekov scite author profile

Apoptosis is a pivotal process in embryogenesis and postnatal cell homeostasis and involves the shedding of membranous microvesicles termed apoptotic bodies. In response to tissue damage, the CXC chemokine CXCL12 and its receptor CXCR4 counteract apoptosis and recruit progenitor cells. Here, we show that endothelial cell-derived apoptotic bodies are generated during atherosclerosis and convey paracrine alarm signals to recipient vascular cells that trigger the production of CXCL12. CXCL12 production was mediated by microRNA-126 (miR-126), which was enriched in apoptotic bodies and repressed the function of regulator of G protein (heterotrimeric guanosine triphosphate-binding protein) signaling 16, an inhibitor of G protein-coupled receptor (GPCR) signaling. This enabled CXCR4, a GPCR, to trigger an autoregulatory feedback loop that increased the production of CXCL12. Administration of apoptotic bodies or miR-126 limited atherosclerosis, promoted the incorporation of Sca-1+ progenitor cells, and conferred features of plaque stability on different mouse models of atherosclerosis. This study highlights functions of microRNAs in health and disease that may extend to the recruitment of progenitor cells during other forms of tissue repair or homeostasis.

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Reciprocal coupling of coagulation and innate immunity via neutrophil serine proteases

Maßberg

Grahl

Bruehl

et al. 2010

Nat Med

1,031

960

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Blood neutrophils provide the first line of defense against pathogens but have also been implicated in thrombotic processes. This dual function of neutrophils could reflect an evolutionarily conserved association between blood coagulation and antimicrobial defense, although the molecular determinants and in vivo significance of this association remain unclear. Here we show that major microbicidal effectors of neutrophils, the serine proteases neutrophil elastase and cathepsin G, together with externalized nucleosomes, promote coagulation and intravascular thrombus growth in vivo. The serine proteases and extracellular nucleosomes enhance tissue factor- and factor XII-dependent coagulation in a process involving local proteolysis of the coagulation suppressor tissue factor pathway inhibitor. During systemic infection, activation of coagulation fosters compartmentalization of bacteria in liver microvessels and reduces bacterial invasion into tissue. In the absence of a pathogen challenge, neutrophil-derived serine proteases and nucleosomes can contribute to large-vessel thrombosis, the main trigger of myocardial infarction and stroke. The ability of coagulation to suppress pathogen dissemination indicates that microvessel thrombosis represents a physiological tool of host defense.

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MicroRNA-126-5p promotes endothelial proliferation and limits atherosclerosis by suppressing Dlk1

Schober

Nazari-Jahantigh

Wei

et al. 2014

Nat Med

556

464

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Atherosclerosis, a hyperlipidemia-induced chronic inflammatory process of the arterial wall, develops preferentially at sites where disturbed laminar flow compromises endothelial cell (EC) function. Here we show that endothelial miR-126-5p maintains a proliferative reserve in ECs through suppression of the Notch1 inhibitor delta-like 1 homolog (Dlk1) and thereby prevents atherosclerotic lesion formation. Endothelial recovery after denudation was impaired in Mir126−/− mice because lack of miR-126-5p, but not miR-126-3p, reduced EC proliferation by derepressing Dlk1. At nonpredilection sites, high miR-126-5p levels in endothelial cells confer a proliferative reserve that compensates for the antiproliferative effects of hyperlipidemia, such that atherosclerosis was exacerbated in Mir126−/− mice. In contrast, downregulation of miR-126-5p by disturbed flow abrogated EC proliferation at predilection sites in response to hyperlipidemic stress through upregulation of Dlk1 expression. Administration of miR-126-5p rescued EC proliferation at predilection sites and limited atherosclerosis, introducing a potential therapeutic approach.

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A Neutrophil Timer Coordinates Immune Defense and Vascular Protection

et al. 2019

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Neutrophil secretion products pave the way for inflammatory monocytes

et al. 2008

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The leukocyte response in inflammation is characterized by an initial recruitment of polymorphonuclear leukocytes (PMN) preceding a second wave of monocytes to the site of injury or infection. In the mouse, 2 populations of monocytes have been identified, Gr1 ؊ CCR2 ؊ CX3CR1 hi resident monocytes and Gr1 ؉ CCR2 ؉ CX3CR1 lo inflammatory monocytes. Here, intravital microscopy of the musculus cremaster and a subcutaneous air pouch model were used to investigate a possible link between PMN extravasation and the subsequent emigration of inflammatory monocytes in response to local stimulation with PAF. In mice that were made neutropenic by injection of a PMNdepleting antibody, the extravasation of inflammatory monocytes, but not resident monocytes, was markedly reduced compared with mice with intact white blood cell IntroductionPolymorphonuclear leukocytes (PMN) dominate the initial leukocyte influx to sites of acute infection and inflammation. 1 This first wave of PMN extravasation precedes a second wave of monocyte extravasation. Recruited PMN are thought to trigger this cellular switch by releasing soluble factors that initiate monocyte recruitment, 2-4 much of which may be mediated by ready-made PMN granule proteins deposited at the site of inflammation. 5,6 Indeed, supernatants of activated PMN from patients with specific granule deficiency lacking proteins in their primary, secondary, and tertiary granules show a reduced capacity to attract monocytes despite normal monocyte chemotaxis in vitro to other stimuli. 7 After this initial observation, several PMN-derived granule proteins with monocyte-chemotactic activity were identified, among them LL-37, cathepsin G, human neutrophil peptide 1-3 (HNP1-3, ␣-defensins), and heparin-binding protein (HBP, also known as CAP37 and azurocidin). [8][9][10][11] Their action was found to be pertussis toxin (PTx)-sensitive and several receptors were suggested to mediate the chemotactic effect. [11][12][13] Peripheral blood monocytes constitute a heterogeneous population of circulating leukocytes in both humans 14 and mice. 15 In the murine blood, 2 monocyte subsets can be distinguished based on their expression of CX3CR1, CCR2, and Gr1. Whereas resident monocytes (Gr1 Ϫ CCR2 Ϫ CX3CR1 hi ) home to noninflamed tissues, inflammatory monocytes (Gr1 ϩ CCR2 ϩ CX3CR1 lo ) are predominantly recruited to sites of inflammation by mechanisms involving CCR2. 15 These inflammatory monocytes were recently shown to be of critical importance in diverse inflammatory and infectious diseases. [16][17][18][19] In this study, we investigated the significance of the initial PMN efflux for the subsequent extravasation of monocytes. Our results demonstrate that PMN seed granule proteins in the tissue which contribute to mobilization specifically of inflammatory monocytes. Functionally, the PMN-dependent invasion of inflammatory monocytes results in a more vigorous immune response as shown by enhanced cytokine release and bacterial clearance at the site of inflammation. Methods AnimalsWild-type C57BL/...

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Kiril Bidzhekov

Delivery of MicroRNA-126 by Apoptotic Bodies Induces CXCL12-Dependent Vascular Protection

Reciprocal coupling of coagulation and innate immunity via neutrophil serine proteases

MicroRNA-126-5p promotes endothelial proliferation and limits atherosclerosis by suppressing Dlk1

A Neutrophil Timer Coordinates Immune Defense and Vascular Protection

Neutrophil secretion products pave the way for inflammatory monocytes

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