Lars Hållström scite author profile

Microparticles (MPs) are small membrane-bound vesicles that arise from activated and dying cells and promote inflammation and thrombosis. To characterize the in vivo release of MPs, we used flow cytometry to measure MPs in the blood of 15 healthy volunteers administered bacterial endotoxin (lipopolysaccharide or LPS) in the presence of a low dose of hydrocortisone with or without inhaled nitric oxide. MPs, defined as particles less than 1.0 lm in size, were assessed following labelling for CD42a, CD14 and CD62E or CD144 antibodies to identify MPs from platelets (PMPs), monocytes (MMPs) and endothelial cells (EMPs). In addition, PMPs and MMPs were labelled with anti-HMGB1 and stained with SYTO13 to assess nuclear acid content. Administration of LPS led to an increase in the numbers of PMPs, MMPs and EMPs as defined by CD62E, as well as the number of MMPs and PMPs staining with anti-HMGB1 and SYTO13. Inhalation of NO did not influence these findings. Together, these studies show that LPS can increase levels of blood MPs and influence phenotype, including nuclear content. As such, particles may be a source of HMGB1 and other nuclear molecules in the blood during inflammation.

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CD40L expression in plasma of volunteers following LPS administration: A comparison between assay of CD40L on platelet microvesicles and soluble CD40L

Mobarrez

Sjövik

Soop

et al. 2014

Platelets

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CD40 ligand (CD40L) is a transmembrane protein that is mainly expressed on activated T cells and platelets. This protein, however, may also be shed from cells and circulate in the blood in a soluble form. "Soluble CD40L" has attracted interest as a biomarker as it can interact with CD40 and elicit cellular responses involved in the pathophysiology of various thrombotic and inflammatory conditions. As platelets can release microvesicles following activation, we investigated the expression of CD40L on circulating microvesicles as well as CD40L in plasma, in an experimental model of inflammation in healthy volunteers (i.e., intravenous lipopolysaccharide administration). We studied CD40L quantified as CD40L-positive platelet microvesicles by flow cytometry, and as CD40L in plasma ("soluble CD40L") by an ELISA. Results of these studies showed that levels of CD40L exposed on platelet microvesicles were significantly increased after lipopolysaccharide administration. ELISA measurements of CD40L in plasma ("soluble CD40L") did not show any significant increase in plasma levels over time. Separation of soluble and vesicle-bound CD40L by high-speed centrifugation indicated that the ELISA can also detect CD40L on microvesicles, as a trend toward increased concentrations were observed in the pellet of high-speed centrifuged samples (i.e., in samples in which microvesicles are enriched). Together, these findings suggest that platelet microvesicles are a source of CD40L in the circulation and that CD40L exposure on platelet microvesicles increases following experimentally induced inflammation. Our data also suggest that determining levels of CD40L on microvesicles in plasma samples may provide a more sensitive detection of changes in CD40L expression than measurement of "soluble CD40L" in plasma with an ELISA. In addition, information regarding the cellular source of CD40L can be obtained with a flow cytometry-based microvesicle assay in a way not possible with an ordinary ELISA.

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Circulating H3Cit is elevated in a human model of endotoxemia and can be detected bound to microvesicles

Göranson

Thålin

Lundström

et al. 2018

Sci Rep

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Early diagnosis of sepsis is crucial since prompt interventions decrease mortality. Citrullinated histone H3 (H3Cit), released from neutrophil extracellular traps (NETs) upon binding of platelets to neutrophils following endotoxin stimulation, has recently been proposed a promising blood biomarker in sepsis. Moreover, microvesicles (MVs), which are released during cell activation and apoptosis and carry a variety of proteins from their parental cells, have also been shown to be elevated in sepsis. In a randomized and placebo-controlled human model of endotoxemia (lipopolysaccharide injection; LPS), we now report significant LPS-induced elevations of circulating H3Cit in 22 healthy individuals. We detected elevations of circulating H3Cit by enzyme-linked immunosorbent assay (ELISA), as well as bound to MVs quantified by flow cytometry. H3Cit-bearing MVs expressed neutrophil and/or platelet surface markers, indicating platelet-neutrophil interactions. In addition, in vitro experiments revealed that H3Cit can bind to phosphatidylserine exposed on platelet derived MVs. Taken together; our results demonstrate that NETs can be detected in peripheral blood during endotoxemia by two distinct H3Cit-specific methods. Furthermore, we propose a previously unrecognized mechanism by which H3Cit may be disseminated throughout the vasculature by the binding to MVs.

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Albumin synthesis in humans increases immediately following the administration of endotoxin

Barle

Januszkiewicz

Hållström

et al. 2002

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In order to investigate the immediate (i.e. within 3 h) response of albumin synthesis to the administration of endotoxin, as a model of a moderate and well controlled catabolic insult, two measurements employing L-[(2)H(5)]phenylalanine were performed in 16 volunteers. One group ( n =8) received an intravenous injection of endotoxin (4 ng/kg; lot EC-6) immediately after the first measurement of albumin synthesis, whereas the other group received saline. A second measurement was initiated 1 h later. In the endotoxin group, the fractional synthesis rate of albumin was 6.9+/-0.6%/day (mean+/-S.D.) in the first measurement. In the second measurement, a significant increase was observed (9.6+/-1.2%/day; P <0.001). The corresponding values in the control group were were 6.6+/-0.6%/day and 7.0+/-0.6%/day respectively (not significant compared with first measurement and P <0.001 compared with the second measurement in the endotoxin group). The absolute synthesis rates of albumin were 148+/-35 and 201+/-49 mg x kg(-1) x day(-1) before and after endotoxin ( P <0.01). In the control group, the corresponding values were 131+/-21 and 132+/-20 mg x kg(-1) x day(-1) (not significant compared with the first measurement and P <0.01 compared with the second measurement in the endotoxin group). In conclusion, these results indicate that albumin synthesis increases in the very early phase after a catabolic insult, as represented by the administration of endotoxin.

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Immunomodulation by a combination of nitric oxide and glucocorticoids in a human endotoxin model

Hållström¹,

Berghäll²,

Frostell³

et al. 2010

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