Regulation of monocyte gene expression by the extracellular matrix and its functional implications

Summary: By binding to extracellular matrix (ECM) proteins, integrins integrate signals from outside the cell and transmit them inwards, thereby providing cells with information about location and allowing them to respond to stimuli in a manner appropriate to their environment. This is particularly important for monocytes and macrophages, given their wide distribution throughout the body and the vital role they play in immune and inflammatory responses. Integrin-mediated interaction of monocytes with ECM is a potent regulator of gene expression and is strongly synergized by the presence of growth factors. This synergy between growth factors and integrins is also apparent in the overlap seen in their signaling pathways. Integrin-mediated interaction with ECM results in increased expression of numerous inflammatory and immune response genes, revealing an important role for ECM–integrin interaction in affecting monocyte function and thus impacting on the development of pathologies. This is of particular relevance in the context of immune and inflammatory responses, where integrin-mediated adhesive interactions with the ECM-rich peripheral tissues are central to the localization of both resident and infiltrating monocytes at inflammatory sites. Here, we will review the functional effects of integrin–ECM interactions on monocytes, with particular attention to the regulation of gene expression by ECM and its functional implications.     

Expression and arrangement of extracellular matrix proteins in the lungs of mice infected with Paracoccidioides brasiliensis conidia

Extracellular matrix (ECM) proteins are important modulators of migration, differentiation and proliferation for the various cell types present in the lungs; they influence the immune response as well as participate in the adherence of several fungi including Paracoccidioides brasiliensis. The expression, deposition and arrangement of ECM proteins such as laminin, fibronectin, fibrinogen, collagen and proteoglycans in the lungs of mice infected with P. brasiliensis conidia has been evaluated in this study, together with the elastic fibre system. Lungs of BALB/c mice infected with P. brasiliensis conidia were analysed for the different ECM proteins by histological and immunohistochemical procedures at different times of infection. In addition, laser scanning confocal microscopy and scanning electron microscopy were used. During the early periods, the lungs of infected animals showed an inflammatory infiltrate composed mainly of polymorphonuclear neutrophils (PMNs) and macrophages, while during the later periods, mice presented a chronic inflammatory response with granuloma formation. Re-arrangement and increased expression of all ECM proteins tested were observed throughout all studied periods, especially during the occurrence of inflammatory infiltration and formation of the granuloma. The elastic fibre system showed an elastolysis process in all experiments. In conclusion, this study provides new details of pulmonary ECM distribution during the course of paracoccidioidomycosis.     

The contact of human macrophages with extracellular matrix proteins selectively induces expression of proinflammatory cytokines.

The interaction of macrophages with proteins of the extracellular matrix (ECM) is important for the regulation of the immune and nonimmune functions displayed by these cells. Little, however, is known about the ability of different ECM proteins to transmit inflammatory signals into macrophages. Here we investigated the effect of the ECM proteins collagen type I, fibrin and fibronectin on the expression of the proinflammatory cytokines interleukin-1beta (IL-1beta) and IL-8 using RT-PCR, Northern and Western blot analysis and ELISA technique. It was found that collagen strongly induced IL-1beta and IL-8 expression in the macrophages. Fibronectin also stimulated cytokine expression, however, the amounts of the specific mRNAs were significantly lower compared to those induced by collagen. On the protein level IL-1beta revealed a close correlation to the mRNA expression. In contrast, fibrin did not elicit any IL-1beta and IL-8 response. These data show that different ECM proteins vary in their ability to induce proinflammatory cytokine expression in human macrophages suggesting that the protein composition of the ECM might be crucial in the initiation of inflammatory processes.     

Dexamethasone attenuates oxidation of extracellular matrix proteins by human monocytes

In response to infection or in immune complex-mediated diseases, inflammatory cells may oxidatively damage extracellular matrix (ECM) proteins. In this study we evaluated whether human monocytes could oxidize ECM and whether this could be modulated by exposure to LPS, IgG complexes, and dexamethasone (DEX). Wells in tissue culture plates were coated with the ECM preparation Matrigel. Porous inserts with or without the human monocyte cell line THP-1 were placed into ECM-containing wells and cells were exposed to control conditions or to LPS (10 ng/ml), IgG complexes (200 and 500 microg/ml), or DEX (10(-7) and 10(-6) M). ECM was then subjected to Western blot analysis using an antibody to oxidized protein. In addition, Western blot analysis was carried out on DEX-treated cells to evaluate expression of the NADPH oxidase components p67-phox and gp91-phox. THP-1 cells enhanced ECM oxidation and this effect was augmented by LPS and by IgG aggregates. Preincubation of cells with DEX attenuated ECM oxidation and was also associated with decreased expression of p67-phox and gp91-phox. These findings suggest that human monocytes can oxidize ECM proteins and that this may be modulated by IgG complexes and LPS. Dexamethasone appears to attenuate ECM oxidation and a better understanding of this mechanism might allow for interventions to minimize oxidative damage to ECM proteins by monocytes in infectious and inflammatory states.     

Three‐dimensional invasion of macrophages is mediated by cysteine cathepsins in protrusive podosomes

Podosomes, specialized actin‐rich structures in macrophages (Mfs), degrade the extra‐cellular matrix (ECM) and are involved in cell migration. On two‐dimensional (2D) surfaces Mfs form spot‐like podosomes at the ventral cell surface that develop into protrusive structures in a three‐dimensional (3D) environment resembling the ECM. We have shown that the tips of these protrusive podosomes are characterized by increased accumulation of cysteine cathepsins (Cts) B, X, S, H, and L, both in human blood Mfs and in human monocytic cell line U‐937. Monocyte‐to‐Mf differentiation induces an increase in cysteine cathepsin expression and activity, promoting their translocation to the cell surface, where they interact with ECM. This group of proteases is crucial for the extracellular as well as intracellular degradation of ECM, as demonstrated by quantitative monitoring of collagen IV degradation. Furthermore, inhibiting CtsB, X, and S significantly impairs Mf invasion through the 3D matrix. Time‐lapse live‐cell imaging of CtsB activity revealed that the extracellular and the intracellular ECM degradation are associated with extensive endocytosis at the tip of protrusive podosomes. The targeting of cysteine cathepsins, as the major mediators of human Mf 3D invasion, could be an approach to the treatment of inflammatory and cancerous diseases.     

ECM hydrogel coating mitigates the chronic inflammatory response to polypropylene mesh

Polypropylene has been used as a surgical mesh material for several decades. This non-degradable synthetic polymer provides mechanical strength, a predictable host response, and its use has resulted in reduced recurrence rates for ventral hernia and pelvic organ prolapse. However, polypropylene and similar synthetic materials are associated with a chronic local tissue inflammatory response and dense fibrous tissue deposition. These outcomes have prompted variations in mesh design to minimize the surface area interface and increase integration with host tissue. In contrast, biologic scaffold materials composed of extracellular matrix (ECM) are rapidly degraded in-vivo and are associated with constructive tissue remodeling and minimal fibrosis. The objective of the present study was to assess the effects of an ECM hydrogel coating on the long-term host tissue response to polypropylene mesh in a rodent model of abdominal muscle injury. At 14 days post implantation, the ECM coated polypropylene mesh devices showed a decreased inflammatory response as characterized by the number and distribution of M1 macrophages (CD86+/CD68+) around mesh fibers when compared to the uncoated mesh devices. At 180 days the ECM coated polypropylene showed decreased density of collagen and amount of mature type I collagen deposited between mesh fibers when compared to the uncoated mesh devices. This study confirms and extends previous findings that an ECM coating mitigates the chronic inflammatory response and associated scar tissue deposition characteristic of polypropylene.     

Human fascia lata ECM scaffold augmented with immobilized hyaluronan: inflammatory response and remodeling in the canine body wall and shoulder implantation sites

We postulate that immobilization of tyramine-substituted hyaluronan (THA) into an extracellular matrix (ECM) scaffold may be a strategy to promote an anti-inflammatory response to the ECM. Further, we posit that the implantation site could influence the inflammatory response and remodeling of an ECM scaffold. Eight beagles underwent implantation of fascia ECM grafts, treated with either immobilized low molecular weight (57 kDa) THA or water only, in both the shoulder injury and body wall sites. Dogs were euthanized at 12 weeks and fascia grafts harvested en bloc for histology. Grafts implanted at the body wall had significantly higher inflammatory cell infiltrate and vascularity, and significantly lower retardance (collagen density), than grafts at the shoulder, suggestive of a more intense, persistent, and perhaps degradative inflammatory and remodeling response at the body wall than shoulder injury site in the canine model. However, the presence of immobilized low MW THA had no effect on the inflammation response or remodeling of fascia ECM compared to water-treated controls. Importantly, these results suggest that the inflammatory response and remodeling of biomaterial implants depends on the location of implantation and therefore our animal models need to be carefully chosen. Further, the potential anti-inflammatory advantages of hyaluronan (HA) in wound healing do not appear to be realized when presenting it to the host as non-degradable hydrogel even if its capacity for binding HA binding protein is maintained. Further study treating ECM with uncross-linked (free) HA or immobilized low MW THA as a means to deliver free HA or other biomolecules to a surgical repair site is warranted.     

Adhesion to extracellular matrix proteins modulates bovine neutrophil responses to inflammatory mediators

The neutrophil inflammatory response can be altered profoundly by contact with extracellular matrix proteins (ECMs). We characterized functional responses (intracellular calcium, actin polymerization, degranulation, adhesion, and oxidative burst) of bovine neutrophils adhered to selected ECM proteins [collagen IV, laminin, fibronectin, thrombospondin, and heparan sulfate proteoglycan (HSP)] in response to interleukin-8 (IL-8) and platelet-activating factor (PAF). Neutrophil adhesion to ECMs altered responses to PAF and IL-8, although some functions were more responsive to modulation. The most susceptible function was reactive oxygen species (ROS) production. ROS production in response to PMA and TNF-alpha was supported differentially by various ECMs, and PAF and IL-8 "priming" had strikingly different effects, depending on the ECM present. Although PAF and IL-8 inhibited TNF-alpha-induced ROS production in neutrophils adhered to collagen, fibronectin, and laminin, PAF enhanced ROS production strongly in HSP-adherent cells. This study illustrates how neutrophils can integrate multiple stimuli, resulting in complex modulation of their functional response.     

MicroRNA-16 inhibits the lipopolysaccharide-induced inflammatory response in nucleus pulposus cells of the intervertebral disc by targeting TAB3

IntroductionA variety of inflammatory mediators are produced by the degenerative human intervertebral disc (IVD) tissues spontaneously, suggesting their role in the development of intervertebral disc degeneration (IDD). Our present study was designed to investigate the regulatory effect of microRNA-16 (miR-16) on the lipopolysaccharide (LPS)-induced inflammatory response in nucleus pulposus (NP) cells of the IVD.Material and methodsNP cells were treated with LPS to induce inflammatory responses. The expression of miRNA and genes was determined by qRT-PCR. Western blot and an ELISA kit were used to detect the proteins and protein expression, respectively. A dual luciferase reporter assay was applied to identify the correlation between a miRNA and a gene, and to test nuclear factor-κB (NF-κB) activity.ResultsThe results suggested that miR-16 positively regulated the mRNA and protein expression of extracellular matrix (ECM) genes (including aggrecan and collagen II) in NP cells, while it was negatively correlated with ECM degrading enzymes (including MMP3, MMP13, ADAMTS4, ADAMTS5) and related genes of nitric oxide (NO) reaction. Further studies revealed that miR-16 could oppositely regulate NF-κB and MAPK pathways by directly mediating their upstream gene TAB3.ConclusionsOur study suggested that, in NP cells of the IVD, miR-16 could exert inhibitory effects on the LPS-induced inflammatory response through NF-κB and MAPK pathways by directly mediating TAB3. In this way, miR-16 would play a protective role against LPS-induced IDD and inflammation. Therefore, miR-16 may be a novel therapeutic target for the inhibit of the ECM in the IVD.     

Leptospira santorosai Serovar Shermani detergent extract induces an increase in fibronectin production through a Toll-like receptor 2-mediated pathway

Leptospirosis can activate inflammatory responses through Toll-like receptors (TLRs) and may cause renal tubulointerstitial fibrosis characterized by the accumulation of extracellular matrix (ECM). We have previously demonstrated that Leptospira santorosai serovar Shermani detergent extract stimulates ECM accumulation in vitro. The aim of this study was to examine the mechanistic basis of these previous observations and, in particular, to examine the potential involvement of TLRs. The addition of serovar Shermani detergent extract led to an increase in fibronectin gene expression and production. Inhibition of TLR2 but not TLR4 expression abrogated serovar Shermani detergent extract-mediated increases in fibronectin production. This response was also blocked by the knockdown of the gene expression of the TLR2 downstream transducers myeloid differentiation factor 88 (MyD88) and tumor necrosis factor receptor-associated factor 6 (TRAF6). Serovar Shermani detergent extract also activated nuclear factor-κB, and its inhibition by curcumin-attenuated serovar Shermani detergent extract induced increases in fibronectin production. These effects were also mimicked by the specific TLR2 agonist, Pam(3)CsK(4), a response that was also abrogated by the knockdown of MyD88 and TRAF6. Similarly, the administration of live leptospires to cells also induced fibronectin production that was blocked by inhibition of TLR2 and MyD88 expression. In conclusion, serovar Shermani detergent extract can induce fibronectin production through the TLR2-associated cascade, providing evidence of an association between TLRs and leptospirosis-mediated ECM deposition.     

FGF-21和Nrf2对博莱霉素诱导的小鼠肺纤维化的影响

目的:研究成纤维细胞生长因子21(FGF-21)对博莱霉素(BLM)诱导的小鼠肺纤维化炎症应答及氧化应激的影响,并探讨其抗肺纤维化的作用机制。方法:建立BLM诱导的小鼠肺纤维化的模型,40只小鼠随机分为对照组、BLM组及FGF-21(1、2及5 mg/kg)+BLM组。Western blot检测I型胶原蛋白(collagen I)、纤连蛋白(fibronectin)和核因子E2相关因子2(Nrf2)蛋白表达水平。DCFH-DA染色检测活性氧簇(ROS)的生成。ELISA用于测定肺组织炎症因子的表达。试剂盒检测各组小鼠肺组织中的丙二醛(MDA)含量、超氧化物歧化酶(SOD)活性、谷胱甘肽过氧化物酶(GPx)活性和羟脯氨酸(HYP)含量。结果:FGF-21处理显著降低BLM诱导的肺组织炎症介质肿瘤坏死因子α、白细胞介素1β和白细胞介素6的表达水平,减少ROS及MDA的含量,并增加抗氧化酶系统SOD和GPx的活性(P 0. 05)。同时,FGF-21下调BLM诱导的collagen I和fibronectin,并减少TGF-β1及HYP的含量。Nrf2沉默能够逆转FGF-21的抗纤维化作用。结论:FGF-21通过激活Nrf2信号抑制炎症应答进程,减轻氧化损伤,减少细胞外基质沉积,从而缓解BLM诱导的肺纤维化。这可能为肺间质纤维化治疗提供新的靶点。     

Protease expression in experimental colitis

Extracellular matrix (ECM) is degraded by matrix metalloproteinases, collagenase, stromelysin and gelatinase, whose activity is strictly controlled by tissue inhibitor of metalloproteinase (TIMP). Excessive enzyme activity could lead to tissue destruction in inflammatory bowel disease (IBD).

Using a rabbit model of chronic colitis we investigated the temporal and spatial distribution of these enzymes by immunolocalisation. 72 kD intracellular gelatinase was observed 3 h after initiation of colitis. At 6 h and 12 h, collagenase and, to a lesser extent, 72 kD and 95 kD gelatinase and stromelysin were all observed on the ECM in regions of mucosal ulceration. TIMP, however, was absent at these earlier times suggesting uncontrolled degradation of ECM, but by 24 h, it was expressed in mucosa adjacent to areas of ulceration. At 72 h and after one week, expression of collagenase declined and from two weeks until the ulcers resolved, stromelysin and gelatinase were found at the junction of normal and ulcerated tissue. TIMP expression remained constant until ulceration had healed at 6 weeks. In colon from animals killed at 0 h, no enzyme or TIMP expression was observed.

Collagenase appears to be associated with the acute phase of ulcer formation, whereas stromelysin and gelatinase are predominant during healing.

     

Alternatively activated macrophages differentially express fibronectin and its splice variants and the extracellular matrix protein betaIG-H3

Alternative activation of macrophages, induced by Th2 cytokines and glucocorticoids, is essential for the proper functioning of anti-inflammatory immune reactions. To this end, alternatively activated macrophages (aaMPhi) express a not yet fully unravelled set of genes including cytokines such as alternative macrophage activation-associated CC-chemokine (AMAC)-1 and pattern recognition molecules such as the scavenger receptor CD163. In order to further characterize the molecular repertoire of aaMPhi, differential gene expression was analyzed by combining subtractive suppression cloning and differential hybridization. We show here that aaMPhi induced by interleukin (IL)-4 overexpress the prototype extracellular matrix (ECM) protein fibronectin on the mRNA and protein level. This overall increase is accompanied by a shift in fibronectin splice variants from an embryonic to a mature pattern. In addition, the expression of another ECM protein, betaIG-H3, is also upregulated by IL-4 in aaMPhi. In contrast to IL-4 and in line with its inhibitory effect on wound healing, dexamethasone exerts a strongly suppressive effect on fibronectin and betaIG-H3 expression. In conclusion, overexpression of ECM proteins induced by IL-4 in macrophages suggests that aaMPhi may be involved in ECM deposition and tissue remodelling during the healing phase of acute inflammatory reactions and in chronic inflammatory diseases.     

Formation of extracellular matrix by cultured rat mesangial cells.

Formation of extracellular matrix (ECM) by mesangial cells (MCs) contributes to progressive glomerulosclerosis. The authors investigated the production and distribution of ECM constituents by cultured rat MCs, using immunocytochemistry and immunoelectron microscopy. Staining for all ECM constituents increased after serum feeding. Localization was strictly intracellular until confluency, when extracellular deposition of collagen IV and laminin appeared, followed by fibronectin and collagen III. In parallel, the intracellular staining for these proteins diminished markedly. Neither extracellular deposition nor intracellular loss was observed for collagen I and thrombospondin. On surfaces coated with collagen IV or laminin, extracellular deposition of ECM constituents clearly preceded confluency. These results indicate that synthesis of ECM constituents parallels MC growth, and that extracellular deposition of ECM occurs at cell-cell contact. Collagen IV or laminin secreted by MCs in the substratum accelerates production and facilitates secretion of other ECM constituents in an autocrine fashion.     

The antifibrogenic effect of (-)-epigallocatechin gallate results from the induction of de novo synthesis of glutathione in passaged rat hepatic stellate cells

Hepatic stellate cells (HSC) are the major players during hepatic fibrogenesis. Overproduction of extracellular matrix (ECM) is a characteristic of activated HSC. Transforming growth factor-beta (TGF-beta) is the most potent fibrogenic cytokine while connective tissue growth factor (CTGF) mediates the production of TGF-beta-induced ECM in activated HSC. HSC activation and hepatic fibrogenesis are stimulated by oxidative stress. Glutathione (GSH) is the most important intracellular antioxidant. The aim of this study is to explore the mechanisms of (-)-epigallocatechin-3-gallate (EGCG), the major and most active component in green tea extracts, in the inhibition of ECM gene expression in activated HSC. It is hypothesized that EGCG inhibits ECM gene expression in activated HSC by interrupting TGF-beta signaling through attenuating oxidative stress. It is found that EGCG interrupts TGF-beta signaling in activated HSC by suppressing gene expression of type I and II TGF-beta receptors. EGCG inhibits CTGF gene expression, leading to the reduction in the abundance of ECM, including alphaI(I) procollagen. Exogenous CTGF dose dependently eliminates the antifibrogenic effect. EGCG attenuates oxidative stress in passaged HSC by scavenging reactive oxygen species and reducing lipid peroxidation. De novo synthesis of GSH is a prerequisite for EGCG to interrupt TGF-beta signaling and to reduce the abundance of alphaI(I) procollagen in activated HSC in vitro. Taken together, our results demonstrate that the interruption of TGF-beta signaling by EGCG results in the suppression of gene expression of CTGF and ECM in activated HSC in vitro. In addition, our results, for the first time, demonstrate that the antioxidant property of EGCG derived from de novo synthesis of intracellular GSH plays a critical role in its antifibrogenic effect. These results provide novel insights into the mechanisms of EGCG as an antifibrogenic candidate in the prevention and treatment of liver fibrosis.     

The interrelated role of fibronectin and interleukin-1 in biomaterial-modulated macrophage function

Macrophages play a critical role in mediating the host response to biomaterials, perhaps most notably by guiding the host inflammatory response through the release of inflammatory molecules such as the cytokine interleukin-1 (IL-1). The extent of the macrophage response following interaction with the biomaterial surface contributes greatly to device efficacy, yet the molecular mechanisms of this interaction are still unclear. The extracellular matrix (ECM) protein fibronectin (FN) is recognized by macrophages and frequently used in biomaterial modification to elicit greater cellular adhesion and tissue integration. Macrophage interaction with FN and other ECM molecules on the biomaterial surface has been shown to induce a variety of inflammatory responses, thus both FN and IL-1 can be utilized as model molecules to better understand the mechanisms of material-mediated macrophage responses. This literature review presents a comprehensive survey of past and current research on the interrelated role of IL-1, FN, and FN-derivatives in determining biomaterial-modulated macrophage function.     

Heterogeneous response of nasal and lung fibroblasts to transforming growth factor-β1

Background Nasal polyposis is characterized by marked oedema, sparse extracellular matrix (ECM) and proliferating blood vessels. Pulmonary fibrosis is characterized by inflammatory cells accumulation, considerable ECM deposition and vascular abnormalities. Although lung fibrosis is not only and necessarily an inflammatory disorder, we hypothesized that the difference between nasal polyposis and pulmonary fibrosis may, in part, be due to the heterogeneity between nasal and lung fibroblasts. Fibroblasts participate in the inflammatory response by releasing ECM proteins and cytokines. TGF‐β is thought to participate in chronic inflammation and fibrosis. Myofibroblasts are the activated form of fibroblasts. A phenotypic hallmark of myofibroblasts is the expression of smooth muscle α‐actin (SMA). Objective We examined whether there is any heterogeneity between nasal and lung fibroblasts upon stimulation with TGF‐β₁ with regard to the synthesis of SMA, pro‐collagen type I and vascular endothelial growth factor (VEGF) as well as translocation of Smad proteins. Methods Fibroblasts lines were established from human biopsy tissue. The expression of SMA, pro‐collagen type I, VEGF mRNA was evaluated by reverse transciptase RT‐PCR. The amount of pro‐collagen type I and VEGF was measured by ELISA. By immunocytochemistry, we analysed the expression of SMA and Smad2, 3, 4 in cultured fibroblasts. Results TGF‐β₁ induced SMA and pro‐collagen type I synthesis in lung, but not in nasal fibroblasts. By contrast, TGF‐β₁ induced VEGF synthesis in both lung and nasal fibroblasts. After stimulation with TGF‐β₁, Smad2, 3, 4 were translocated from the cytoplasm to the nucleus in lung fibroblasts, whereas only Smad3 was translocated in nasal fibroblasts. Conclusion These results establish the heterogeneous responsiveness of fibroblast populations in the airways to TGF‐β₁ and that such a heterogeneity may contribute, at least in part, to the different pathological outcomes of inflammation in the upper and lower airways.     

The Influence of the Extracellular Matrix in Inflammation: Findings from the SPARC-Null Mouse

Matricellular proteins are secreted proteins that, among other functions, can contribute to extracellular matrix (ECM) assembly including modulation of cell:ECM interactions. Recent discoveries have indicated a fundamental role for the ECM in the regulation of inflammatory responses including cell extravasation and recruitment, immune cell differentiation, polarization, activation, and retention in tissues. Secreted protein acidic and rich in cysteine (SPARC) is a matricellular collagen-binding protein implicated in fibrillar collagen assembly in the ECM of connective tissue as well as in basal lamina organization. Functions of SPARC in modulating cell adhesion events are also reported. Studies of phenotypic responses observed in SPARC-null mice to a variety of injury models have yielded interesting insight into the functional importance of SPARC production and aberrations in ECM structure that occur in the absence of SPARC that influence immune cell behavior and inflammatory pathways. In this review, we will discuss several examples from different tissues in which SPARC-null mice exhibited an inflammatory response distinct from those of SPARC expressing mice and provide insight into novel ECM-dependent mechanisms that influence these responses. Anat Rec, 2019. © 2019 Wiley Periodicals, Inc.