scholarly journals Syndecan-1 shedding facilitates the resolution of neutrophilic inflammation by removing sequestered CXC chemokines

Blood ◽  
2009 ◽  
Vol 114 (14) ◽  
pp. 3033-3043 ◽  
Author(s):  
Kazutaka Hayashida ◽  
William C. Parks ◽  
Pyong Woo Park

Heparan sulfate binds to and regulates many inflammatory mediators in vitro, suggesting that it serves an important role in directing the progression and outcome of inflammatory responses in vivo. Here, we evaluated the role of syndecan-1, a major heparan sulfate proteoglycan, in modulating multiorgan host injury responses in murine endotoxemia. The extent of systemic inflammation was similar between endotoxemic syndecan-1–null and wild-type mice. However, high levels of CXC chemokines (KC and MIP-2), particularly at later times after LPS, were specifically sustained in multiple organs in syndecan-1–null mice and associated with exaggerated neutrophilic inflammation, organ damage, and lethality. Syndecan-1 shedding was activated in several organs of endotoxemic wild-type mice, and this associated closely with the removal of tissue-bound CXC chemokines and resolution of accumulated neutrophils. Moreover, administration of a shedding inhibitor exacerbated disease by impeding the removal of CXC chemokines and neutrophils, whereas administration of heparan sulfate inhibited the accumulation of CXC chemokines and neutrophils in tissues and attenuated multiorgan injury and lethality. These data show that syndecan-1 shedding is a critical endogenous mechanism that facilitates the resolution of neutrophilic inflammation by aiding the clearance of proinflammatory chemokines in a heparan sulfate–dependent manner.

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 469-469
Author(s):  
Alain Chion ◽  
Jamie O'Sullivan ◽  
Gudmundur Bergsson ◽  
Sean Keyes ◽  
Orla Rawley ◽  
...  

Abstract Enhanced plasma clearance of von Willebrand factor (VWF) plays an important role in the etiology of both type 1 and type 2 VWD. Nevertheless, although significant progress has been achieved in understanding the structure and functional properties of VWF, the mechanism(s) responsible for modulating VWF clearance from the plasma remain poorly understood. Accumulating recent data suggests that hepatic and splenic macrophages play key roles in modulating VWF clearance. A number of putative macrophage receptors for VWF have been also been described, including LRP1, β2-integrins and Siglec-5. In addition, it is well recognised that variation in VWF glycan expression significantly influences its clearance rate. In particular, terminal ABO(H) blood group determinants which are predominantly expressed on the N-linked glycans of human VWF significantly modulate its rate of clearance. Critically however, the molecular mechanisms through which specific macrophage receptors interact with particular regions of the complex VWF glycoprotein have not been defined. To investigate the role of VWF glycans and specific VWF domains in regulating VWF clearance, we expressed and purified a series of recombinant VWF variants and truncations with/without specific glycan sites. In addition, VWF glycosylation was modified using specific exoglycosidase digestions. Subsequently, recombinant VWF variants and glycoforms thereof were injected into VWF-/-mice, and plasma VWF clearance rates determined by ELISA. VWF-macrophage interactions were also quantified in vitro using phorbol ester-differentiated monocytic THP-1 cells, and primary human monocytes, in a High Content Analysis Imaging system. In keeping with previous reports, we observed that clearance of a truncated VWFA1A2A3 fragment in VWF-/-mice was very similar to that of full-length wild type (WT-) VWF (VWFA1A2A3; t1/2 = 6.3 min versus rWT-VWF; t1/2 = 7.9 min). Furthermore, chemical depletion of macrophages using clodronate liposomes administration significantly inhibited A1A2A3 clearance in vivo (1.7-fold at 10 min time point) to a similar extent to that observed with full length VWF. In vitro binding experiments confirmed that A1A2A3 bound to differentiated THP-1 cells in a dose- and time- dependent manner. Interestingly, this binding was significantly enhanced in the presence of ristocetin. Cumulatively, these data demonstrate that the A1A2A3 domains of VWF contain a critical receptor-binding site for macrophage-mediated clearance. Interestingly, we observed that the half-life of infused human plasma-derived VWF and recombinant VWF expressed in HEK293T cells in VWF-/- mice were significantly different. Furthermore, treatment with PNGase F to completely remove N-linked glycan structures markedly enhanced the clearance of full length VWF (t1/2 2.1 min; p<0.05). Collectively, these findings highlight the essential roles played by N-glycans in regulating VWF survival. Two N-linked glycan sites are located within A1A2A3 at N1515 and N1574 respectively. Importantly, we found that PNGase digestion of A1A2A3 resulted in markedly enhanced macrophage binding in vitro. Consequently we hypothesized that the two N-glycans located within the A2 domain might be important in regulating VWF clearance by macrophages. Targeted disruption of these individual N-glycan sites by site-directed mutagenesis (A1A2A3-N1515Q and A1A2A3-N1574Q respectively) resulted in significantly enhanced macrophage binding in vitro compared to wild type A1A2A3. Furthermore, following tail vein infusion in VWF-/-mice, full length VWFN1515Q and VWFN1574Q both demonstrated markedly reduced half-lives compared to wild type VWF (VWFN1515Q; t1/2 = 3.7 min, VWFN1574Q; t1/2 = 5.5 min). Finally, introduction of the N1515Q point mutation into truncated A1A2A3 also served to significantly enhance plasma clearance, (A1A2A3N1515Q-VWF; t1/2 = 3.1 min versus A1A2A3-VWF; t1/2 = 6.3 min). In conclusion, our novel data identify a crucial role of the VWF A domains in regulating macrophage-mediated VWF clearance. In addition, we further demonstrate that the N-linked glycans structures located at N1515 and N1574 within the A2 domain play specific roles in protecting VWF against in vivo clearance by macrophages. Given the important role played by enhanced VWF clearance in the etiology of type I VWD, these findings are of direct clinical importance. Disclosures No relevant conflicts of interest to declare.


2013 ◽  
Vol 81 (6) ◽  
pp. 1952-1963 ◽  
Author(s):  
Michael D. Lovelace ◽  
May Lin Yap ◽  
Jana Yip ◽  
William Muller ◽  
Odilia Wijburg ◽  
...  

ABSTRACTPECAM-1/CD31 is known to regulate inflammatory responses and exhibit pro- and anti-inflammatory functions. This study was designed to determine the functional role of PECAM-1 in susceptibility to murine primaryin vivoinfection withSalmonella entericaserovar Typhimurium and inin vitroinflammatory responses of peritoneal macrophages. Lectin profiling showed that cellular PECAM-1 and recombinant human PECAM-1-Ig chimera contain high levels of mannose sugars andN-acetylglucosamine. Consistent with this carbohydrate pattern, both recombinant human and murine PECAM-1-Ig chimeras were shown to bindS. Typhimurium in a dose-dependent mannerin vitro. Using oral and fecal-oral transmission models ofS. Typhimurium SL1344 infection, PECAM-1−/−mice were found to be more resistant toS. Typhimurium infection than wild-type (WT) C57BL/6 mice. While fecal shedding ofS. Typhimurium was comparable in wild-type and PECAM-1−/−mice, the PECAM-1-deficient mice had lower bacterial loads in systemic organs such as liver, spleen, and mesenteric lymph nodes than WT mice, suggesting that extraintestinal dissemination was reduced in the absence of PECAM-1. This reduced bacterial load correlated with reduced tumor necrosis factor (TNF), interleukin-6 (IL-6), and monocyte chemoattractant protein (MCP) levels in sera of PECAM-1−/−mice. Followingin vitrostimulation of macrophages with either wholeS. Typhimurium, lipopolysaccharide (LPS) (Toll-like receptor 4 [TLR4] ligand), or poly(I·C) (TLR3 ligand), production of TNF and IL-6 by PECAM-1−/−macrophages was reduced. Together, these results suggest that PECAM-1 may have multiple functions in resistance to infection withS. Typhimurium, including binding to host cells, extraintestinal spread to deeper tissues, and regulation of inflammatory cytokine production by infected macrophages.


Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 370-370
Author(s):  
Freda H. Passam ◽  
Lin Lin ◽  
Mingdong Huang ◽  
Jonathan M. Gibbins ◽  
Bruce Furie ◽  
...  

Abstract Abstract 370 Protein disulfide isomerase is required for thrombus formation in various in vivo models of thrombosis. Another member of the thiol isomerase family, endoplasmic reticulum protein 5 (ERp5), is released from activated platelets and co-immunoprecipitates with beta 3 integrin (Jordan et al, 2005). We further investigated the association of ERp5 with the platelet fibrinogen receptor alpha IIb beta 3 and the significance of ERp5 release in thrombus formation in vivo. Recombinant purified ERp5 was labeled with Alexa 488 and used in direct binding assays to CHO cells expressing wild type (WT) alpha IIb beta 3, CHO cells expressing mutant alpha IIb beta 3 (containing an Asp119Tyr substitution in the beta 3 subunit) and to control CHO cells. The mutant alpha IIb beta 3 does not bind fibrinogen. ERp5 bound to CHO cells expressing wild type (WT) alpha IIb beta 3 in a dose-dependent manner but did not bind to CHO cells expressing mutant alpha IIb beta 3 or to control CHO cells. The relative increase in the geomean of Alexa 488-labeled ERp5 binding to 0.5 ×106 WT alpha IIb beta 3 CHO cells over that bound to control CHO cells was 20, 45 and 85% for ERp5 concentrations of 80, 160 and 400 nM respectively. Binding of ERp5 (160 nM) to WT alpha IIb beta 3 expressing CHO cells was further increased by 75% when the integrin was activated with 2 mM Mn2+ compared to non-activated WT alpha IIb beta 3 CHO cells. A role for ERp5 in thrombus formation was studied in the laser injury model of thrombosis in mouse cremaster arterioles using a rabbit polyclonal anti-ERp5 antibody, immunoaffinity purified against recombinant ERp5. This antibody detected ERp5 in the releasate of thrombin-activated mouse platelets in vitro by Western blot and on the surface of thrombin-activated mouse platelets by flow cytometry. Dylight 649-labeled anti-CD42b was infused into the mouse circulation to detect platelet accumulation and Alexa 488-labeled anti-ERp5 antibody at 0.05 ug/g, a dose that does not inhibit thrombus formation, was infused to detect ERp5. The fluorescent anti-ERp5 signal detected at the thrombus site was compared to the signal produced by a non-specific IgG labeled with Alexa 488 infused into a control mouse. Anti-ERp5 fluorescence was detected in the thrombus with kinetics that followed platelet accumulation whereas there was minimal signal from the control IgG. We examined whether higher doses of anti-ERp5 affect thrombus formation. Platelet and fibrin accumulation were detected using fluorescently labeled anti-CD42b antibody and monoclonal anti-fibrin-specific antibody respectively before or after the injection of unlabeled anti-ERp5 antibody or pre-immune IgG at 2.5 ug/g. Platelet and fibrin accumulation, expressed as area under the curve of the median integrated fluorescence over time, was obtained from 14 thrombi in 6 mice formed before infusion of antibody, 18 thrombi in 2 mice formed after infusion of control IgG and 29 thrombi in 3 mice formed after infusion of anti-ERp5. Anti-ERp5 infusion caused a 70% decrease in the deposition of platelets and a 62% decrease in fibrin accumulation compared to infusion of control antibody (p<0.01). There was no difference in platelet and fibrin accumulation before infusion of antibody and after infusion of control antibody. These results provide evidence for a role of a second thiol isomerase, ERp5, in thrombus formation, a function which may be mediated through its association with alpha IIb beta 3. Disclosures: No relevant conflicts of interest to declare.


1999 ◽  
Vol 146 (4) ◽  
pp. 819-830 ◽  
Author(s):  
Evelyne Ferrary ◽  
Michel Cohen-Tannoudji ◽  
Gérard Pehau-Arnaudet ◽  
Alexandre Lapillonne ◽  
Rafika Athman ◽  
...  

Villin is an actin-binding protein localized in intestinal and kidney brush borders. In vitro, villin has been demonstrated to bundle and sever F-actin in a Ca2+-dependent manner. We generated knockout mice to study the role of villin in vivo. In villin-null mice, no noticeable changes were observed in the ultrastructure of the microvilli or in the localization and expression of the actin-binding and membrane proteins of the intestine. Interestingly, the response to elevated intracellular Ca2+ differed significantly between mutant and normal mice. In wild-type animals, isolated brush borders were disrupted by the addition of Ca2+, whereas Ca2+ had no effect in villin-null isolates. Moreover, increase in intracellular Ca2+ by serosal carbachol or mucosal Ca2+ ionophore A23187 application abolished the F-actin labeling only in the brush border of wild-type animals. This F-actin disruption was also observed in physiological fasting/refeeding experiments. Oral administration of dextran sulfate sodium, an agent that causes colonic epithelial injury, induced large mucosal lesions resulting in a higher death probability in mice lacking villin, 36 ± 9.6%, compared with wild-type mice, 70 ± 8.8%, at day 13. These results suggest that in vivo, villin is not necessary for the bundling of F-actin microfilaments, whereas it is necessary for the reorganization elicited by various signals. We postulate that this property might be involved in cellular plasticity related to cell injury.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Ying Tang ◽  
Mengchun Zhou ◽  
Rongrong Huang ◽  
Ling Shen ◽  
Li Yang ◽  
...  

Abstract Background Astrocytes participate in innate inflammatory responses within the mammalian central nervous system (CNS). HECT domain E3 ubiquitin protein ligase 1 (HECTD1) functions during microglial activation, suggesting a connection with neuroinflammation. However, the potential role of HECTD1 in astrocytes remains largely unknown. Results Here, we demonstrated that HECTD1 was upregulated in primary mouse astrocytes after 100 ng/ml lipopolysaccharide (LPS) treatment. Genetic knockdown of HECTD1 in vitro or astrocyte-specific knockdown of HECTD1 in vivo suppressed LPS-induced astrocyte activation, whereas overexpression of HECTD1 in vitro facilitated LPS-induced astrocyte activation. Mechanistically, we established that LPS activated σ-1R-JNK/p38 pathway, and σ-1R antagonist BD1047, JNK inhibitor SP600125, or p38 inhibitor SB203580 reversed LPS-induced expression of HECTD1, thus restored LPS-induced astrocyte activation. In addition, FOXJ2 functioned as a transcription factor of HECTD1, and pretreatment of primary mouse astrocytes with BD1047, SB203580, and SP600125 significantly inhibited LPS-mediated translocation of FOXJ2 into the nucleus. Conclusions Overall, our present findings suggest that HECTD1 participates in LPS-induced astrocyte activation by activation of σ-1R-JNK/p38-FOXJ2 pathway and provide a potential therapeutic strategy for neuroinflammation induced by LPS or any other neuroinflammatory disorders.


2021 ◽  
Vol 11 (15) ◽  
pp. 6865
Author(s):  
Eun Seon Lee ◽  
Joung Hun Park ◽  
Seong Dong Wi ◽  
Ho Byoung Chae ◽  
Seol Ki Paeng ◽  
...  

The thioredoxin-h (Trx-h) family of Arabidopsis thaliana comprises cytosolic disulfide reductases. However, the physiological function of Trx-h2, which contains an additional 19 amino acids at its N-terminus, remains unclear. In this study, we investigated the molecular function of Trx-h2 both in vitro and in vivo and found that Arabidopsis Trx-h2 overexpression (Trx-h2OE) lines showed significantly longer roots than wild-type plants under cold stress. Therefore, we further investigated the role of Trx-h2 under cold stress. Our results revealed that Trx-h2 functions as an RNA chaperone by melting misfolded and non-functional RNAs, and by facilitating their correct folding into active forms with native conformation. We showed that Trx-h2 binds to and efficiently melts nucleic acids (ssDNA, dsDNA, and RNA), and facilitates the export of mRNAs from the nucleus to the cytoplasm under cold stress. Moreover, overexpression of Trx-h2 increased the survival rate of the cold-sensitive E. coli BX04 cells under low temperature. Thus, our data show that Trx-h2 performs function as an RNA chaperone under cold stress, thus increasing plant cold tolerance.


2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Wei Zhang ◽  
Guoyu Yin ◽  
Heping Zhao ◽  
Hanzhi Ling ◽  
Zhen Xie ◽  
...  

AbstractIn inflamed joints, enhanced hyaluronic acid (HA) degradation is closely related to the pathogenesis of rheumatoid arthritis (RA). KIAA1199 has been identified as a hyaladherin that mediates the intracellular degradation of HA, but its extracellular function remains unclear. In this study, we found that the serum and synovial levels of secreted KIAA1199 (sKIAA1199) and low-molecular-weight HA (LMW-HA, MW < 100 kDa) in RA patients were significantly increased, and the positive correlation between them was shown for the first time. Of note, treatment with anti-KIAA1199 mAb effectively alleviated the severity of arthritis and reduced serum LMW-HA levels and cytokine secretion in collagen-induced arthritis (CIA) mice. In vitro, sKIAA1199 was shown to mediate exogenous HA degradation by attaching to the cell membrane of RA fibroblast-like synoviosytes (RA FLS). Furthermore, the HA-degrading activity of sKIAA1199 depended largely on its adhesion to the membrane, which was achieved by its G8 domain binding to ANXA1. In vivo, kiaa1199-KO mice exhibited greater resistance to collagen-induced arthritis. Interestingly, this resistance could be partially reversed by intra-articular injection of vectors encoding full-length KIAA1199 instead of G8-deleted KIAA119 mutant, which further confirmed the indispensable role of G8 domain in KIAA1199 involvement in RA pathological processes. Mechanically, the activation of NF-κB by interleukin-6 (IL-6) through PI3K/Akt signaling is suggested to be the main pathway to induce KIAA1199 expression in RA FLS. In conclusion, our study supported the contribution of sKIAA1199 to RA pathogenesis, providing a new therapeutic target for RA by blocking sKIAA1199-mediated HA degradation.


Biomedicines ◽  
2021 ◽  
Vol 9 (4) ◽  
pp. 420
Author(s):  
Su-Jung Hwang ◽  
Ye-Seul Song ◽  
Hyo-Jong Lee

Kushen (Radix Sophorae flavescentis) is used to treat ulcerative colitis, tumors, and pruritus. Recently, phaseolin, formononetin, matrine, luteolin, and quercetin, through a network pharmacology approach, were tentatively identified as five bioactive constituents responsible for the anti-inflammatory effects of S. flavescentis. However, the role of phaseolin (one of the primary components of S. flavescentis) in the direct regulation of inflammation and inflammatory processes is not well known. In this study, the beneficial role of phaseolin against inflammation was explored in lipopolysaccharide (LPS)-induced inflammation models of RAW 264.7 macrophages and zebrafish larvae. Phaseolin inhibited LPS-mediated production of nitric oxide (NO) and the expression of inducible nitric oxide synthase (iNOS), without affecting cell viability. In addition, phaseolin suppressed pro-inflammatory mediators such as cyclooxygenase 2 (COX-2), interleukin-1β (IL-1β), tumor necrosis factor α (TNF-α), monocyte chemoattractant protein-1 (MCP-1), and interleukin-6 (IL-6) in a dose-dependent manner. Furthermore, phaseolin reduced matrix metalloproteinase (MMP) activity as well as macrophage adhesion in vitro and the recruitment of leukocytes in vivo by downregulating Ninjurin 1 (Ninj1), an adhesion molecule. Finally, phaseolin inhibited the nuclear translocation of nuclear factor-kappa B (NF-κB). In view of the above, our results suggest that phaseolin could be a potential therapeutic candidate for the management of inflammation.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Yorick Janssens ◽  
Nathan Debunne ◽  
Anton De Spiegeleer ◽  
Evelien Wynendaele ◽  
Marta Planas ◽  
...  

AbstractQuorum sensing peptides (QSPs) are bacterial peptides produced by Gram-positive bacteria to communicate with their peers in a cell-density dependent manner. These peptides do not only act as interbacterial communication signals, but can also have effects on the host. Compelling evidence demonstrates the presence of a gut-brain axis and more specifically, the role of the gut microbiota in microglial functioning. The aim of this study is to investigate microglial activating properties of a selected QSP (PapRIV) which is produced by Bacillus cereus species. PapRIV showed in vitro activating properties of BV-2 microglia cells and was able to cross the in vitro Caco-2 cell model and reach the brain. In vivo peptide presence was also demonstrated in mouse plasma. The peptide caused induction of IL-6, TNFα and ROS expression and increased the fraction of ameboid BV-2 microglia cells in an NF-κB dependent manner. Different metabolites were identified in serum, of which the main metabolite still remained active. PapRIV is thus able to cross the gastro-intestinal tract and the blood–brain barrier and shows in vitro activating properties in BV-2 microglia cells, hereby indicating a potential role of this quorum sensing peptide in gut-brain interaction.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Shinjini Chakraborty ◽  
Veronika Eva Winkelmann ◽  
Sonja Braumüller ◽  
Annette Palmer ◽  
Anke Schultze ◽  
...  

AbstractSingular blockade of C5a in experimental models of sepsis is known to confer protection by rescuing lethality and decreasing pro-inflammatory responses. However, the role of inhibiting C5a has not been evaluated in the context of sterile systemic inflammatory responses, like polytrauma and hemorrhagic shock (PT + HS). In our presented study, a novel and highly specific C5a L-aptamer, NoxD21, was used to block C5a activity in an experimental murine model of PT + HS. The aim of the study was to assess early modulation of inflammatory responses and lung damage 4 h after PT + HS induction. NoxD21-treated PT + HS mice displayed greater polymorphonuclear cell recruitment in the lung, increased pro-inflammatory cytokine levels in the bronchoalveolar lavage fluids (BALF) and reduced myeloperoxidase levels within the lung tissue. An in vitro model of the alveolar-capillary barrier was established to confirm these in vivo observations. Treatment with a polytrauma cocktail induced barrier damage only after 16 h, and NoxD21 treatment in vitro did not rescue this effect. Furthermore, to test the exact role of both the cognate receptors of C5a (C5aR1 and C5aR2), experimental PT + HS was induced in C5aR1 knockout (C5aR1 KO) and C5aR2 KO mice. Following 4 h of PT + HS, C5aR2 KO mice had significantly reduced IL-6 and IL-17 levels in the BALF without significant lung damage, and both, C5aR1 KO and C5aR2 KO PT + HS animals displayed reduced MPO levels within the lungs. In conclusion, the C5aR2 could be a putative driver of early local inflammatory responses in the lung after PT + HS.


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