Production of monocyte chemotactic and activating factor (MCAF) by human dermal fibroblasts in response to interleukin 1 or tumor necrosis factor

Normal human dermal fibroblasts rapidly expressed (less than 30 min.) considerable mRNA for monocyte chemotactic and activating factor (MCAF) and released high levels of biological activity in response to interleukin 1 (IL 1) or tumor necrosis factor (TNF). In contrast, cultured normal human keratinocytes did not express MCAF mRNA when stimulated with IL 1 or TNF. These results suggest the important role of dermal fibroblasts, the predominant cells in dermal connective tissue, in the recruitment of monocytes during inflammation. This is the first report of the induction of MCAF by IL 1 or TNF in any cell type.     

Two distinct monokines, interleukin 1 and tumor necrosis factor, each independently induce biosynthesis and transient expression of the same antigen on the surface of cultured human vascular endothelial cells

A murine monoclonal antibody (H4/18) raised against cultured human endothelial cells (HEC) prestimulated by the monokine interleukin 1 (IL 1) recognizes a cell surface molecule inducible by IL 1 or by the distinct monokine tumor necrosis factor (TNF) in primary or serially passaged HEC. H4/18 binding is not basally expressed or inducible by IL 1 in an SV-40 transformed HEC line, in human dermal fibroblasts, or in blood leukocytes. Expression of this molecule by HEC in response to IL 1 can be blocked by protein and RNA synthesis inhibitors but not by cyclooxygenase inhibitors. In addition, H4/18 can immunoprecipitate two biosynthetically labeled polypeptides (Mr 100,000 and 120,000) from HEC stimulated with IL 1 but not from control HEC. Thus, the H4/18 binding site appears to be an inducible surface protein specific for HEC. The majority of HEC in a culture can be induced to express the H4/18 binding protein, but expression is transient (peak 4 to 6 hr) and over the next 24 hr declines to near basal levels either in the continued presence of or upon removal of IL 1. The magnitude of the peak response depends upon IL 1 concentration (peak 5 to 10 U/ml), and the response is optimized by the continued presence of IL 1 during the initial 4- to 6-hr induction period. The time of peak H4/18 binding does not appear to be a function of IL 1 concentration. The decline of H4/18 binding from peak levels is prevented by cycloheximide, a protein synthesis inhibitor. HEC maintained in the presence of IL 1 for 24 hr become refractory to restimulation by IL 1; however, IL 1-stimulated cells rested in the absence of IL 1 for 20 hr can be stimulated by fresh IL 1. HEC expression of the H4/18 binding protein is not induced by interleukin 2 or by interferon-alpha, -beta, or -gamma. Induction of H4/18 binding by TNF is also concentration dependent, transient, and dependent upon protein and RNA synthesis. Several observations suggest that IL1 and TNF act independently on HEC. Our TNF is a recombinant protein, expressed from a cloned cDNA and thus free of IL 1 contamination; it also has no activity in a highly sensitive IL 1 assay. Our standard IL 1 preparation is affinity purified and lacks TNF activity on L929 cells. Thus, our monokine preparations are not cross-contaminated. Most interestingly, HEC incubated with IL 1 and refractory to IL1 restimulation can be restimulated by TNF to express H4/18 binding and vice versa.(ABSTRACT TRUNCATED AT 400 WORDS)     

Hemorrhage induces an increase in serum TNF which is not associated with elevated levels of endotoxin

Although tumor necrosis factor (TNF) and interleukin 6 (IL 6) are purported to be important mediators of inflammatory responses following trauma, it is not known if the serum levels of these cytokines are altered by simple hemorrhage. The objective of this study therefore was to determine whether or not: 1) there is any elevation of TNF or IL 6, and 2) if endotoxin, an important upregulator of these cytokines, is also increased following hemorrhage. To study this, C3H/HeN mice were bled to, and maintained at a mean blood pressure of 35 mmHg for 60 min, and then resuscitated with their own shed blood and adequate fluid. Mice were sacrificed at 30 min into hemorrhage and at 2, 4 or 24 hr post-hemorrhage to obtain serum samples. IL 6 and TNF levels were measured using cytokine dependent cellular assays. Using a quantitative Limulus amebocyte lysate assay, endotoxin levels were determined. TNF levels were significantly elevated at 30 min into hemorrhage, remaining so at 2 hr after resuscitation, but absent by 4 hr. Although there was a trend toward elevated IL 6 levels at 2 hr following hemorrhage, which was sustained up to 24 hr, the values were not significantly different from sham controls. When compared to controls, no marked increase in endotoxin was seen at any time point during or following hemorrhage. These results indicate that hemorrhage, in the absence of significant tissue trauma, causes enhanced TNF release which is not the result of increased endotoxin.     

Mechanism of fibrogenesis in submandibular glands in patients with IgG4-RD

The aim of this study was to investigate the mechanisms driving fibrosis in the submandibular glands (SMG) of patients with IgG4-related disease (IgG4-RD). Immunohistochemistry showed that many fibroblast-like cells expressing IL-6, IL-18, TSLP, IL-33, and MMP1 were present in SMG from the affected patients. SMG fibroblasts were derived from patients with or without IgG4-RD and were cultured in vitro. Expression of IL-6, IL-18, TSLP, IL-33 and MMP1, the secretion of IL-6 and G2/M phase were upregulated in the fibroblasts from the affected patients. By treatment with inflammatory cytokines IL-1β, TNFα or TGF-β after treatment with or without the NF-κB inhibitor curcumin, curucumin blocked the production and secretion of IL-6 upregulated by IL-1β, TNFα, or TNFα/TGF-β in all fibroblasts. Wnt1-inducible signaling protein 1 (WISP1), which can enhance fibroblasts proliferation, was also more abundantly expressed in affected fibroblasts, while treatment with IL-6 induced WISP1, treatment with WISP1 increased the G2/M phase, and curucumin inhibited WISP1 induced by TNFα/TGF-β in unaffected fibroblasts. IL-33 in affected fibroblasts was induced by IL-1β, TNFα, or TNFα/TGF-β, while the effect of IL-1β or TNFα/TGF-β was blocked by curcumin. These results suggest fibrosis in the SMG of affected patients is closely linked to the proliferation of fibroblasts following induction of IL-6 and WISP1 by inflammatory cytokines. The Th2 cytokines TSLP and IL-33 are also upregulated in affected SMG, and thus may cause chronic inflammation and IgG4 accumulation.     

Synergistic stimulation of fibroblast prostaglandin production by recombinant interleukin 1 and tumor necrosis factor

Mononuclear cell production of cytokines that stimulate fibroblast prostaglandin (PG) elaboration is an important mechanism by which mononuclear cells regulate fibroblast function. However, the soluble factors mediating these PG-stimulatory effects are incompletely understood. We characterized the effects on PG production by confluent normal lung fibroblasts of recombinant interleukin 1 alpha (IL 1 alpha), interleukin 1 beta (IL 1 beta) and tumor necrosis factor (TNF), alone and in combination. All three cytokines stimulated fibroblast PG production with both IL 1 peptides being significantly more potent than TNF. In addition, TNF interacted in a synergistic fashion with both IL 1 peptides to augment fibroblast PGE elaboration further. The stimulatory effects of the cytokines were almost entirely caused by an increase in PGE2 production and were reversed when the cytokine(s) were removed. These changes in PG production could not be explained by alterations in cell number and were completely negated by specific anticytokine antibodies. Recombinant gamma interferon, although synergizing with TNF in regulating other cellular functions, did not interact with TNF to augment fibroblast PGE elaboration. In addition, the synergistic interaction of IL 1 and TNF did not extend to all biologic effects of IL 1 since TNF did not augment the ability of IL 1 to stimulate thymocyte proliferation.     

Adhesive interactions between fibroblasts and polymorphonuclear neutrophils in vitro

Although the in vivo interaction between polymorphonuclear neutrophils (PMN) and fibroblasts may be important, these pathways have not been well studied. We have investigated the adherence of PMN to monolayers of human fetal lung fibroblasts, using a microtiter plate assay based upon the uptake by cells of the vital stain Rose Bengal. Stimulation with phorbol myristate acetate (PMA) caused a significant increase of adherence over basal levels which was rapid in onset and plateaued at 5 min. Adhesion was dependent on the leucocyte integrin family of glycoproteins, notably on Mac-1, since monoclonal antibodies toward the beta chain (CD18) and alpha chain (CD11b) of Mac-1 almost completely suppressed PMA-induced PMN adhesion (88% and 77% inhibition, respectively). Adhesion was also inhibited by the peptides RGDS and GRGDS (24.2% and 26.6%, respectively using 1 mM peptide). Prestimulation of fibroblasts for longer time periods (5 and 24 h) with interleukin 1 alpha and tumor necrosis factor alpha, but not transforming growth factor beta, also resulted in a significant increase in adhesion of unstimulated PMN (after 24 h preincubation, 10 U/ml IL1 alpha stimulated adhesion by 179% of control, 500 U/ml TNF alpha by 157%). This indicated that there are both PMN- and fibroblast-dependent pathways for PMN adhesion. Components of the extracellular matrix of fibroblasts do not appear to play important roles in the adhesion process since addition of fibronectin and type IV collagen, or of purified antibodies to fibronectin and types I and IV collagen, did not affect PMA-induced PMN adhesion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cachectin/tumor necrosis factor-alpha alters red blood cell kinetics and induces anemia in vivo

Chronic inflammatory diseases are often associated with decreased red blood cell (RBC) mass. The cytokines cachectin/tumor necrosis factor-alpha (TNF) and interleukin 1 (IL 1) are produced by monocytes/macrophages in response to many inflammatory stimuli and have been implicated in the anemia of chronic disease. This study was undertaken to evaluate the mechanisms by which cachectin/TNF, IL 1, or endotoxin induce anemia. Hematologic parameters and RBC kinetics were quantitated in rats given chronic sublethal quantities of either recombinant human cachectin/TNF, recombinant human IL 1 alpha, or Salmonella endotoxin for 7 days. Cachectin/TNF or endotoxin treatment resulted in a 25 or 31% decrease, respectively, in total RBC mass, whereas RBC mass was unchanged by IL 1 administration. Anemia associated with either chronic cachectin or endotoxin administration was characterized by normal mean corpuscular volume, mean corpuscular hemoglobin content, and reticulocyte numbers. [59Fe]RBC survival was significantly shortened in animals given cachectin, IL 1 or endotoxin, but the magnitude of the response was greatest in cachectin/TNF-or endotoxin-treated rats. Although cachectin/TNF-IL 1-, or endotoxin treatment resulted in similar hypoferremia and shortened plasma iron half-life, endotoxin or cachectin/TNF treatment (but not IL 1) significantly reduced the incorporation of plasma 59Fe into newly synthesized RBCs. We conclude that chronic cachectin/TNF administration produces anemia by decreasing RBC synthesis and reducing the life span of circulating RBCs. An endogenous cachectin/TNF response during inflammatory disease may contribute to an associated anemic state, whereas the modestly reduced red cell life span induced by IL 1 does not lead to a net reduction in RBC mass, presumably owing to a preserved RBC synthetic rate.     

Tumor necrosis factor and interleukin-1 cause a rapid and transient stimulation of c-fos and c-myc mRNA levels in human fibroblasts

Tumor necrosis factor (TNF) and interleukin-1 (IL-1) were shown previously to be mitogenic for human fibroblasts. Here we show that recombinant human TNF and recombinant human IL-1 alpha increase steady state levels of c-fos and c-myc proto-oncogene mRNAs in quiescent human FS-4 fibroblasts. Proto-oncogene mRNA levels were enhanced within 20 min of TNF or IL-1 addition, peaked at 30 min, and declined to undetectable levels (c-fos) or basal levels (c-myc) by 60 or 90 min. A similar rapid increase in c-fos and c-myc mRNA was seen in quiescent FS-4 cells exposed to cycloheximide. However, in the presence of cycloheximide, both proto-oncogene mRNA levels continued to rise for at least 90 min. The transient nature of the increase in c-myc mRNA levels appears to be a response characteristic for TNF and IL-1 because in quiescent FS-4 cells exposed to 10% fetal bovine serum, steady state levels of c-myc mRNA remained elevated for at least 4 h.     

Tumor necrosis factor and interleukin 1 inhibit parathyroid hormone-responsive adenylate cyclase in clonal osteoblast-like cells by down-regulating parathyroid hormone receptors.

The effects of the monokines tumor necrosis factor alpha (TNF) and interleukin 1 (IL 1) on parathyroid hormone (PTH)-responsive adenylate cyclase were examined in clonal rat osteosarcoma cells (UMR-106) with the osteoblast phenotype. Recombinant TNF and IL 1 incubated with UMR-106 cells for 48 hr each produced concentration-dependent inhibition of PTH-sensitive adenylate cyclase, with maximal inhibition of PTH response (40% for TNF, 24% for IL 1) occurring at 10(-8) M of either monokine. Both monokines also decreased adenylate cyclase stimulation by the tumor-derived PTH-related protein (PTHrP). In contrast, TNF and IL 1 had little or no inhibitory effect on receptor-mediated stimulation of adenylate cyclase by isoproterenol and nonreceptor-mediated enzyme activation by cholera toxin and forskolin; both monokines increased prostaglandin E2 stimulation of adenylate cyclase. Binding of the radioiodinated agonist mono-[125I]-[Nle8,18, Tyr34]bPTH-(1-34)NH2 to UMR-106 cells in the presence of increasing concentrations of unlabeled [Nle8,18, Tyr34]bPTH-(1-34)NH2 revealed a decline in PTH receptor density (Bmax) without change in receptor binding affinity (dissociation constant, Kd) after treatment with TNF or IL 1. Pertussis toxin increased PTH-sensitive adenylate cyclase activity but did not attenuate monokine-induced inhibition of PTH response. In time course studies, brief (1 hr) exposure of cells to TNF or IL 1 during early culture was sufficient to decrease PTH response but only after exposed cells were subsequently allowed to grow for prolonged periods. Inhibition of PTH response by monokines was blocked by cycloheximide. The results indicate that TNF and IL 1 impair responsiveness to PTH (and PTHrP) by a time- and protein synthesis-dependent down-regulation of PTH receptors linked to adenylate cyclase.     

Activation of cultured human endothelial cells by recombinant lymphotoxin: comparison with tumor necrosis factor and interleukin 1 species

Recombinant human lymphotoxin (LT) was compared with recombinant human tumor necrosis factor (TNF) for direct actions on cultured human endothelial cells (HEC). At equivalent half-maximal concentrations (based on L929 cytotoxicity units) LT and TNF each caused rapid and transient induction (peak 4 to 6 hr) of an antigen associated with leukocyte adhesion (detected by monoclonal antibody H4/18), a rapid but sustained increased expression (plateau 24 hr) of a lymphocyte adhesion structure (ICAM-1), a gradual (plateau 4 to 6 days) increase in expression of HLA-A,B antigens, and gradual (4 to 6 days) conversion of HEC culture morphology from epithelioid to fibroblastoid, an effect enhanced by immune interferon (IFN-gamma). Induction of H4/18 binding by maximal concentrations of LT or TNF could not be augmented by addition of the other cytokine, and 24 hr pretreatment with LT or TNF produced hyporesponsiveness to both mediators for reinduction. H4/18 binding can be transiently induced by tumor-promoting phorbol esters. Pretreatment with either LT or TNF also fully inhibited induction of H4/18 binding by phorbol ester, whereas phorbol ester pretreatment only variably and partially inhibited reinduction by LT or TNF. These actions of LT on endothelium shared with TNF may serve in vivo to promote lymphocyte and inflammatory leukocyte adhesion and transendothelial migration. Recombinant human interleukin 1 species (IL 1 alpha and IL 1 beta) shared many of the actions of LT and TNF and were indistinguishable from each other. However, IL 1 species could be distinguished from LT/TNF by their relative inability to enhance HLA-A,B expression, by their ability to augment H4/18 binding caused by maximally effective concentrations of LT or TNF, and by their inability to inhibit reinduction of H4/18 binding by LT or TNF. In contrast to the actions of LT or TNF, pretreatment with IL 1 alpha or IL 1 beta only partially inhibited induction of H4/18 binding by phorbol ester, and phorbol ester pretreatment consistently, albeit partially, inhibited induction by IL 1 species. These studies suggest that activated T cells through the secretion of LT can in turn activate the local endothelial lining so as to promote homing and extravasation of inflammatory cells. Furthermore, these LT actions can be augmented or complemented by other locally produced mediators such as IFN-gamma or IL 1.     

Role of PPARγ in the salutary effects of 17β‐estradiol on kupffer cell cytokine production following trauma‐hemorrhage

Studies have shown that administration of 17β‐estradiol prevents trauma‐hemorrhage‐induced increase in proinflammatory cytokine production by Kupffer cells and associated multiple organ injury. Since activation of peroxisome proliferator‐activated receptor γ (PPARγ) following ischemic conditions has been shown to be protective, we examined if PPARγ plays any role in the salutary effects of 17β‐estradiol on Kupffer cell cytokine production following trauma‐hemorrhage. Male mice underwent trauma‐hemorrhage (mean blood pressure 40 mmHg for 90 min, then resuscitation). 17β‐estradiol (50 µg/kg) or vehicle with or without PPARγ antagonist GW9662 was injected subcutaneously at the middle of resuscitation. At 2 h after trauma‐hemorrhage, plasma interleukin (IL)‐6 and tumor necrosis factor (TNF)‐α levels, Kupffer cell IL‐6 and TNF‐α production and mRNA expression, and PPARγ, nuclear factor (NF)‐κB and activator protein (AP)‐1 DNA binding activity were determined. Kupffer cell IL‐6 and TNF‐α production, as well as plasma IL‐6 and TNF‐α levels, increased following trauma‐hemorrhage. Moreover, NF‐κB and AP‐1 DNA binding activity and IL‐6 and TNF‐α mRNA expression were also enhanced under such conditions. However, 17β‐estradiol administration normalized all these parameters. Although PPARγ activity decreased after trauma‐hemorrhage, administration of 17β‐estradiol following trauma‐hemorrhage elevated PPARγ activity above the normal level. Inhibition of PPARγ by co‐administration of GW9662, however, abolished the salutary effects of 17β‐estradiol on plasma cytokine and Kupffer cells. Thus, activation of PPARγ appears to play an important role in mediating the salutary effects of 17β‐estradiol on plasma cytokine levels and Kupffer cell cytokine production after trauma‐hemorrhage, which are likely mediated via NF‐κB and AP‐1. J. Cell. Physiol. 226: 205–211, 2010. © 2010 Wiley‐Liss, Inc.     

Stimulation of tumor necrosis factor secretion by purified influenza virus neuraminidase

We showed that purified neuraminidase (NA) of influenza virus, but not hemagglutinin (HA), possessed the potential to increase in vitro and in vivo the interleukin 1 (IL 1) activity of mouse peritoneal macrophages. In this study, we report the effect of NA and HA on the secretion of tumor necrosis factor (TNF) activity by murine peritoneal macrophages. TNF being a cytokine sharing many related and overlapping biological functions with IL 1. The two glycoproteins of the strain A/USSR/90/77 (H1N1) were purified electrophoretically and were tested in vitro at doses ranging from 0.5 to 5.0 micrograms using the adherent peritoneal macrophages of C3H/HeN mice elicited with thioglycolate. The TNF activity of culture supernatants, collected 24 hr after stimulation with viral protein, was evaluated by the standard cytolytic assay using L929 and WEHI.164 cells. No increase of the TNF activity was observed at 0.5 micrograms of NA (4.8 Units (U)/ml in the L929 assay and 20.4 U/ml in the WEHI assay) but further increase of NA to 1.0 microgram had a significant effect on the TNF activity (39.7 and 88.8 U/ml, respectively). Higher concentrations of NA (2.0 and 5.0 micrograms) did not improve the TNF activity. The addition of a rabbit anti-TNF-alpha serum to the assay system reduced the lysis of L929 cells by 85%, suggesting that the observed activity was due to TNF. In parallel, the enhancement of IL 1 activity due to NA was reverified using D10.G4.1 cells instead of the C3H/HeJ thymocytes assay used previously. NA augmented the IL 1 activity up to 1.0 micrograms (25.8 U/ml). The addition of monoclonal anti-IL 1 antibodies (100 neutralizing units) to the supernatants reduced the incorporation of [3H]-thymidine by 90 to 95%, suggesting that the observed activity was due to IL 1. Comparative results of NA and HA showed that only NA stimulated the TNF and IL 1 activities of murine macrophages.     

Interleukin 1 and tumour necrosis factor increase phosphorylation of the small heat shock protein. Effects in fibroblasts, Hep G2 and U937 cells

Interleukin 1 alpha and tumour necrosis factor-alpha stimulated phosphorylation of three 27 kDa phosphoproteins in MRC-5 fibroblasts which was sustained for up to 2 h after adding the cytokines. All three phosphoproteins were immunoprecipitated by a specific antiserum to the small mammalian heat shock protein, hsp 27. The three phosphoproteins from stimulated or control cells contained phosphoserine but not phosphothreonine or phosphotyrosine. Similar increases in phosphorylation of immunoprecipitable 27 kDa proteins were seen in U937 cells stimulated by TNF alpha and Hep G2 cells stimulated by IL1 alpha.     

Synergistic induction of hepatocyte growth factor in human skin fibroblasts by the inflammatory cytokines interleukin-1 and interferon-gamma

Hepatocyte growth factor (HGF) is one of the vital factors for wound healing. HGF expression markedly increases in wounded skin and is mainly localized in dermal fibroblasts. HGF expression level in human dermal fibroblasts in vitro, however, is low and thus may be stimulated by some factors in the process of wound healing. Candidates of the factors are inflammatory cytokines released by polymorphonuclear and mononuclear cells infiltrating the wounded area, but HGF production in human dermal fibroblasts is only slightly induced by interleukin (IL)-1, tumor necrosis factor (TNF)-alpha or interferon (IFN)-gamma. We here report that a combination of IL-1beta and IFN-gamma or a combination of TNF-alpha and IFN-gamma very markedly induced HGF production. The synergistic effect of the former was more marked than that of the latter. Synergistic effects of IL-1beta and IFN-gamma were observed at more than 10 pg/ml and 10 IU/ml, respectively, and were detectable as early as 12 h after addition. Neither IFN-alpha nor IFN-beta was able to replace IFN-gamma. HGF mRNA expression was also synergistically upregulated by IL-1beta and IFN-gamma. IL-1beta plus IFN-gamma-induced synergistic production of HGF was potently inhibited by treatment of cells with the extracellular signal-regulated kinase (ERK) kinase inhibitor PD98059 and the p38 inhibitor SB203580 but not by the c-Jun N-terminal kinase (JNK) inhibitor SP600125. Taken together, our results indicate that a combination of IL-1beta and IFN-gamma synergistically induced HGF production in human dermal fibroblasts and suggest that activation of ERK and p38 but not of JNK is involved in the synergistic effect.     

Insulin-like growth factor 1 can decrease degradation and promote synthesis of proteoglycan in cartilage exposed to cytokines.

A model system of explanted cartilage has been used in vitro to determine whether insulin-like growth factor 1 (IGF 1), which promotes matrix formation is effective in the presence of cytokines such as interleukin 1 (IL1) and tumour necrosis factor (TNF), which induce net matrix depletion. IGF 1 induced a dose-dependent 2.5-fold stimulation of proteoglycan synthesis, with a half-maximal dose of 25 ng/ml. A similar relative increase occurred in response to IGF 1 (10-100 ng/ml) in cartilage cultured also with IL1 or TNF (5-500 pM). There was no detectable qualitative change in the average molecular size or charge of the aggregating proteoglycan synthesized by explants exposed to IGF 1 alone or with IL1 or TNF. The increased production of prostaglandin E2, which is initiated when IL1 or TNF bind to the chondrocytes, was the same in the presence or absence of IGF 1. The time taken for 50% of pre-labelled proteoglycan to be released from the explants (t1/2) increased in the presence of IGF 1 (100 ng/ml) from 21 to 32 days in control cultures and from 8 to 26 days in cartilage cultured with IL1 (50 pM). It is concluded that IGF 1 enhances the synthesis of aggregating proteoglycan in cartilage exposed to cytokines and can directly decrease both the basal and the cytokine-stimulated degradation of proteoglycan in cartilage.     

Inhibition of the hyaluronan oligosaccharides inflammatory response: reduction of adenosine 2A receptor activation by EPAC and PKA

The aim of this study was to investigate the involvement of exchange proteins directly activated by cyclic adenosine (ADO) monophosphate (EPAC) in 4‐mer hyaluronan (HA) oligosaccharide‐induced inflammatory response in mouse normal synovial fibroblasts (NSF). Treatment of NSF with 4‐mer HA increased Toll‐like receptor‐4, TNF‐alpha and IL‐1beta mRNA expression and of the related proteins, as well as nuclear factor kappaB (NF‐kB) activation. Addition to NSF, previously stimulated with 4‐mer HA oligosaccharides, of ADO significantly reduced NF‐kB activation, TNF‐alpha and IL‐1beta expression. The pre‐treatment of NSF with cyclic ADO monophosphate and/or PKA and/or EPAC‐specific inhibitors significantly inhibited the anti‐inflammatory effect exerted by ADO. In particular, the EPAC inhibitor reduced the ADO effect to a major extent than the PKA inhibitor. These results mean that both PKA and EPAC pathways are involved in ADO‐induced NF‐kB inhibition although EPAC seems to be more involved than PKA. Copyright © 2014 John Wiley & Sons, Ltd.     

Synergistic interactions between interleukin 1, tumor necrosis factor, and lymphotoxin in bone resorption

Cytokines with bone-resorbing activity include IL 1 beta (pI 7), IL 1 alpha (pI 5), tumor necrosis factor (TNF), and lymphotoxin (LT). Possible interaction between IL 1 beta, the major mediator with osteoclast-activating factor (OAF) activity, and other cytokines was studied. By itself, IL 1 beta was 13-fold more potent than IL 1 alpha and 1000-fold more potent than either TNF or LT in stimulating bone resorption. Suboptimal concentrations of IL 1 beta or IL 1 alpha in combination with suboptimal concentrations of TNF or LT resulted in synergistic bone-resorptive responses (1.5 to 10 times the expected responses if their effects were additive). Synergy between either form of IL 1 and TNF or LT resulted in a twofold increase in activity of IL 1, and a 100-fold increase in activity of TNF or LT. However, even with optimal synergy, IL 1 beta remained 20-fold more potent in inducing bone resorption than TNF or LT. Because IL 1 beta is considerably more potent than TNF and LT in stimulating bone resorption either alone or under synergistic conditions, it is unlikely that TNF and LT are responsible for more than a minor proportion of the total bone-resorbing activity formerly referred to as OAF.