Tumor necrosis factor and IL-1 in New Zealand Black/White mice. Enhanced gene expression and acceleration of renal injury

TNF and IL-1 are potent immunologic and inflammatory cytokines. We have previously reported increased levels of mRNA for TNF alpha and IL-1 beta in MRL-lpr mice with lupus nephritis. To determine whether the increased levels of TNF and IL-1 mRNA are a more general feature of mice with lupus nephritis we studied cytokine gene expression in female NZB x NZW F1 (NZB/W) mice by Northern blot analysis. Enhanced steady state levels of mRNA for TNF alpha and IL-1 beta, but not IL-1 alpha, were detected in the renal cortices of animals with lupus nephritis. To determine whether administration of TNF or IL-1 would accelerate renal injury and mortality, we injected murine rTNF alpha or rIL-1 alpha i.p. into female NZB/W or C3H/FeJ mice at two doses, 2.0 micrograms or 0.2 micrograms, three times weekly for 2 or 4 mo beginning at 2 or 4 mo of age. Administration of the lower dose of each cytokine accelerated renal disease and mortality rate when treatment was initiated at 4 mo of age. At the higher dose, neither cytokine promoted disease. Treatment administered from 2-4 mo of age did not accelerate renal disease. This observation suggests that in order to cause renal injury, these cytokines must interact with other pathologic features present in these animals after 4 mo of age. These findings support the hypothesis that TNF and IL-1 can contribute to nephritis in murine models of lupus. Taken together with previously published data, we propose that TNF and IL-1 have differential dose effects on renal disease. The dose of TNF and IL-1 and the stage of disease activity dictate the pathogenic action of these cytokines.     

Estrogen treatment down-regulates TNF-alpha production and reduces the severity of experimental autoimmune encephalomyelitis in cytokine knockout mice.

A shift toward Th2 cytokine production has been demonstrated during pregnancy and high dose estrogen therapy and is thought to be the primary mechanism by which estrogen suppresses the development of experimental autoimmune encephalomyelitis. However, low dose estrogen treatment is equally protective in the absence of a significant shift in cytokine production. In this study cytokine-deficient mice were treated with estrogen to determine whether a shift in Th2 cytokine production was required for the protective effects of hormone therapy. Estrogen effectively suppressed the development of experimental autoimmune encephalomyelitis in IL-4 and IL-10 knockout mice and in wild type littermate mice with a similar potency of protection. Significant disease suppression was also seen in IFN-gamma-deficient mice. The decrease in disease severity was accompanied by a concomitant reduction in the number of proinflammatory cytokine- and chemokine-producing cells in the CNS. Although there was no apparent increase in compensatory Th2 cytokine production in cytokine-deficient mice, there was a profound decrease in the frequency of TNF-alpha-producing cells in the CNS and the periphery. Therefore, we propose that one mechanism by which estrogen protects females from the development of cell-mediated autoimmunity is through a hormone-dependent regulation of TNF-alpha production.     

In vivo effects of human recombinant tumor necrosis factor alone and in combination with other biological response modifiers on human digestive organ cancer xenografts transplanted in nude mice

The present study was designed to evaluate the effect of rTNF alone or in combination with other BRMs on human digestive organ cancers. Six kinds of human digestive organ cancer xenografts (esophageal, stomach, colonic, pancreatic, bile duct, and liver cancers: EC-YO, GC-YN, CC-KK, PC-HN, BDC-SN and Li-7, respectively) were transplanted in nude mice, and rTNF was administered at 10³, 5 × 10³, or 10⁴U/head directly into the tumor 3 times a week for 2 weeks. EC-YO was the most sensitive to rTNF, and intratumoral administration of rTNF at 10³ U/head caused tumor regression. PC-HN, CC-KK and GC-YN were relatively sensitive to rTNF, and their growth was significantly inhibited by rTNF at 5 × 10³ U/head, however, the tumors regrew after treatment. Li-7 and BDC-SN were resistant to rTNF. The effects of rTNF in combination with recombinant interferon- (rIFN-), recombinant interleukin-2 (rIL-2), or streptococcal preparation OK-432 were assessed in mice transplanted with GC-YN. All combinations of rTNF at 5 × 10³ U/head and other BRMs were more effective than rTNF alone, and GC-YN tumors were completely regressed after treatment with a combination of rTNF and rIFN- or rTNF and OK-432. However in all cases, the combination of rTNF at 10³ U/head and any other BRM did not improve the effect. Furthermore, the adverse effects of the combinations were more serious than those of rTNF alone.TNF may still be a useful cytokine, because it can induce the regression of tumors. However, for its clinical application, a method should be developed to reduce its side effects.     

Activity of recombinant tumor necrosis factor on Toxoplasma gondii and Trypanosoma cruzi

Activated macrophages produce tumor necrosis factor (TNF), a cytokine with anti-tumor and anti-plasmodia activities. This study revealed that recombinant TNF (rTNF) inhibits intracellular multiplication of blood trypomastigotes of Trypanosoma cruzi in murine peritoneal macrophages. rTNF did not have any apparent direct effect on the survival of extracellular T. cruzi or on its ability to infect mammalian cells. The degree of inhibition of the intracellular multiplication of T. cruzi was found to be a function of the time of exposure of the infected cells to rTNF. rTNF induced a comparable effect when different strains of the parasite were used. In contrast to its activity on T. cruzi, rTNF did not affect intracellular multiplication of Toxoplasma gondii tachyzoites or bradyzoites in normal murine peritoneal macrophages or in human fibroblasts. Killing of Toxoplasma tachyzoites by activated macrophages was not enhanced by rTNF.     

Sublethal effects of Bacillus thuringiensis on the spruce budworm, Choristoneura fumiferana

Exposing larvae of the spruce budworm, Choristoneura fumiferana (Clemens), to sublethal ( 50% lethal dose) levels of Bacillus thuringiensis subsp. kurstaki at various stages of their development significantly increased development time to the pupal stage and reduced pupal size and number of eggs laid per female, but did not affect the proportion of embryonated eggs. The changes in larval development time, pupal weight and fecundity depended on the larval stage that was treated. Exposure of fourth instars delayed larval development and reduced only male pupal weights with no effects on fecundity. Exposure of sixth instars delayed larval development to a lesser extent than exposure of fourth instars but had a pronounced effect on weight of both male and female pupae. The effect on pupal weight was sex dependent, as males tended to be more affected than females. The reduction in male pupal weight did not appear to influence fecundity, because the effect of exposure was explained by the change in female pupal weight. Effects on larval growth and pupal weight were proportional to the dose that was ingested during exposure, and were observed at doses as low as one-tenth of the LD₅₀. Ingestion of an LD₅₀ caused a 29 or 45% delay in development of, respectively, female or male larvae when exposed as fourth instars and a 30% reduction in female pupal weight when larvae were exposed as sixth instars.     

Anti-tumor activity of recombinant tumor necrosis factor on mouse fibrosarcoma in vivo and in vitro

The experiments presented were designed first to determine the effects of rTNF on the methylcholanthrene-induced fibrosarcoma (FSA-1) in C3H/JSed mice and second to determine whether the observed effects are the result of direct action by rTNF on the tumor or whether rTNF acts as a mediator of other effector mechanisms. Mice received syngeneic FSA-1 fibrosarcoma cells either s.c. or i.v. in order to evaluate growth of transplantable solid tumor or lung metastases, respectively. The range of dosages, from 10(2) to 2 x 10(5) U of rTNF, was administered i.v. at different intervals after the tumor cell injection. Early injection of 10(3) to 10(4) U of rTNF reduced the growth of s.c. injected tumor and the number of lung metastases in i.v. injected mice. In both cases, survival of mice was also prolonged. However, in vitro treatment of FSA-1 tumor cells with rTNF did not result in the reduction of their proliferating activity after injection into mice, although direct cytostatic and moderate cytotoxic activity of rTNF in vitro was demonstrated. To identify whether other cellular mechanisms are involved in the effects observed in vivo, the anti-tumor activity of rTNF-treated spleen cells was evaluated in vitro using a 75Se release assay. Whereas nontreated spleen cells demonstrated very low cytotoxic activity in this system, the cells from rTNF-treated mice showed marked increase in the cytotoxicity against syngeneic tumor cells. These results suggest that the anti-tumor activity of rTNF represents a combination of its direct effect on tumor cells and indirect effects involving host immune mechanisms.     

Poor Cerebral Inflammatory Response in eIF2B Knock-In Mice: Implications for the Aetiology of Vanishing White Matter Disease

Background

Mutations in any of the five subunits of eukaryotic translation initiation factor 2B (eIF2B) can lead to an inherited chronic-progressive fatal brain disease of unknown aetiology termed leucoencephalopathy with vanishing white matter (VWM). VWM is one of the most prevalent childhood white matter disorders, which markedly deteriorates after inflammation or exposure to other stressors. eIF2B is a major housekeeping complex that governs the rate of global protein synthesis under normal and stress conditions. A previous study demonstrated that Eif2b5^R132H/R132H mice suffer delayed white matter development and fail to recover from cuprizone-induced demyelination, although eIF2B enzymatic activity in the mutant brain is reduced by merely 20%.

Principal Findings

Poor astrogliosis was observed in Eif2b5^R132H/R132H mice brain in response to systemic stress induced by peripheral injections of lipopolysaccharide (LPS). Even with normal rates of protein synthesis under normal conditions, primary astrocytes and microglia isolated from mutant brains fail to adequately synthesise and secrete cytokines in response to LPS treatment despite proper induction of cytokine mRNAs.

Conclusions

The mild reduction in eIF2B activity prevents the appropriate increase in translation rates upon exposure to the inflammatory stressor LPS. The data underscore the importance of fully-functional translation machinery for efficient cerebral inflammatory response upon insults. It highlights the magnitude of proficient translation rates in restoration of brain homeostasis via microglia-astrocyte crosstalk. This study is the first to suggest the involvement of microglia in the pathology of VWM disease. Importantly, it rationalises the deterioration of clinical symptoms upon exposure of VWM patients to physiological stressors and provides possible explanation for their high phenotypic variability.     

Recombinant tumor necrosis factor enhances macrophage destruction of Trypanosoma cruzi in the presence of bacterial endotoxin

We examined in this work whether rTNF inhibits the capacity of Trypanosoma cruzi to multiply within murine macrophages or enhances the ability of the phagocytic host cells to destroy internalized parasites. We found that rTNF would not alter the fate of the trypanosomes within macrophages over a 48-h incubation period unless the latter cells were also treated with 1 ng/ml bacterial endotoxin (LPS). Treatment of macrophages with rTNF plus LPS, but not separate treatment with either rTNF or LPS, resulted in a significant decrease in the number of organisms per 100 macrophages with respect to values obtained with mock-treated macrophages. In addition, there was a significant reduction in the proportion of infected macrophages over the 48-h incubation period, indicating parasite clearance by the host cells. The combined effects of rTNF and LPS were seen when macrophages from CBA/J were used but not with LPS-insensitive macrophages from C3H/HeJ mice. Increased trypanosome killing by CBA/J macrophages treated with rTNF plus LPS was not seen when catalase was present in the culture medium, indicating a role for hydrogen peroxide in the cytotoxic effect. These results show that rTNF can affect the fate of T. cruzi within macrophages if LPS is present and point to destruction of internalized organisms rather than inhibition of parasite multiplication as the most likely explanation.     

Enhancement of cell-mediated cytotoxicity by recombinant tumor necrosis factor (TNF alpha)

The effects of recombinant tumor necrosis factor (rTNF alpha) on the immune responses were investigated. A single iv injection of rTNF alpha (6 x 10(3) U) caused regression of sarcoma-180 transplanted into BALB/c nu/+ mice, but failed to regress this tumor in nu/nu mice. A higher dose of rTNF alpha (2 x 10(4) U) was necessary to induce antitumor effect in nu/nu mice. A host-related factor seemed to be involved in mediating tumor regression. Therefore, the effects of rTNF alpha on various T-dependent immune responses, including delayed footpad reaction (DFR), cell mediated cytolysis (CMC), and plaque-forming cells (PFC) were examined in BALB/c mice, immunized ip with chicken erythrocytes (CRBC). A single injection of rTNF alpha, at the time of the antigen administration, induced the augmentation of CMC to CRBC in a dose-dependent manner. DFR and PFC were not affected in optimal immunization procedures. The TNF alpha injection, at or after the time of antigen administration, was more effective in inducing augmentation of CMC. The increase in CMC by TNF alpha was mediated by nonadherent, Thy 1.2, Lyt 2.2 positive cells and neutralization of TNF alpha by the anti-TNF alpha monoclonal antibody abolished the effect on CMC. These results indicated that the human recombinant TNF alpha induced changes in the T-cell-mediated responses.     

IL-4 induces a Th2 response in Leishmania major-infected mice.

The infection of mice with Leishmania major can cause either a fatal disseminated disease or a localized healing disease, depending on the genetic background of the mice. A strong correlation has been shown between disease outcome and the nature of the T cell response, with healer strains developing a Th1-like response and nonhealer strains a Th2-like response. The treatment of nonhealer BALB/c mice with a single dose of an anti-IL-4 antibody, given at the time of infection with L. major, allowed these mice to develop healing Th1-like responses, suggesting that IL-4 is required in BALB/c mice for the differentiation of Th cells into Th2 cells. Anti-IL-4 had to be present during the first 2 wk of infection to have this effect. Anti-IL-4 caused a marked shift from a Th2 to a Th1 pattern of cytokine expression within 4 days, in vivo, and injections of IL-4 had the opposite effect on the early response in healer C3H/HeN mice. These findings demonstrate that IL-4 can induce the development of Th2 response to L. major infection in vivo.     

Repression of bleomycin-induced pneumopathy by TNF

Idiopathic pulmonary fibrosis is a chronic inflammatory lung disease with interstitial fibrosis. As a potent proinflammatory cytokine, TNF has been suggested to play critical roles in the pathogenesis of the human disease and its animal model, bleomycin-induced pneumopathy. However, studies using TNF-deficient mice have demonstrated that TNF also has an anti-inflammatory function. To determine the role of TNF in pulmonary inflammation induced by bleomycin, we injected bleomycin intratracheally into TNF-deficient mice. In this study, we demonstrated persistent and intense inflammation in TNF-deficient mice due to reduced apoptosis of inflammatory cells. We also showed that in TNF-deficient mice, challenge via airways with murine, but not human rTNF, efficiently eliminated inflammatory cells from the bronchoalveolar space by apoptosis, and thus promoted tissue repair of damaged lungs. Contrary to previous reports that showed that TNF was a central mediator of pulmonary inflammation, we have demonstrated that TNF is essential for repressing pulmonary inflammation in bleomycin-induced pneumopathy.     

Chronic Low Dose Chlorine Exposure Aggravates Allergic Inflammation and Airway Hyperresponsiveness and Activates Inflammasome Pathway

Background

Epidemiologic clinical studies suggested that chronic exposure to chlorine products is associated with development of asthma and aggravation of asthmatic symptoms. However, its underlying mechanism was not clearly understood. Studies were undertaken to define the effects and mechanisms of chronic low-dose chlorine exposure in the pathogenesis of airway inflammation and airway hyperresponsiveness (AHR).

Methods

Six week-old female BALB/c mice were sensitized and challenged with OVA in the presence and absence of chronic low dose chlorine exposure of naturally vaporized gas of 5% sodium hypochlorite solution. Airway inflammation and AHR were evaluated by bronchoalveolar lavage (BAL) cell recovery and non-invasive phlethysmography, respectively. Real-time qPCR, Western blot assay, and ELISA were used to evaluate the mRNA and protein expressions of cytokines and other inflammatory mediators. Human A549 and murine epithelial (A549 and MLE12) and macrophage (AMJ2-C11) cells were used to define the responses to low dose chlorine exposure in vitro.

Results

Chronic low dose chlorine exposure significantly augmented airway inflammation and AHR in OVA-sensitized and challenged mice. The expression of Th2 cytokines IL-4 and IL-5 and proinflammatory cytokine IL-1β and IL-33 were significantly increased in OVA/Cl group compared with OVA group. The chlorine exposure also activates the major molecules associated with inflammasome pathway in the macrophages with increased expression of epithelial alarmins IL-33 and TSLP in vitro.

Conclusion

Chronic low dose exposure of chlorine aggravates allergic Th2 inflammation and AHR potentially through activation of inflammasome danger signaling pathways.     

Low-dose estrogen therapy ameliorates experimental autoimmune encephalomyelitis in two different inbred mouse strains

It has been proposed that homeostatic levels of estrogen can enhance female susceptibility to autoimmunity, whereas the heightened levels of estrogen associated with pregnancy are protective. This hypothesis was tested using the mouse model of experimental autoimmune encephalomyelitis (EAE). Diestrus (<100 pg/ml in serum) levels of 17beta-estradiol were found to significantly reduce the clinical manifestations of active EAE in both male and female mice. Estriol was also effective but at doses below those previously established for pregnancy. The reduction in disease severity was accompanied by a coincident reduction in the number and size of inflammatory foci in the CNS of estrogen (17beta-estradiol or estriol)-treated mice. Recipients of encephalitogenic T cells from low-dose estrogen-treated mice developed less severe paralysis than mice receiving T cells from placebo-treated mice. A modest shift in Th1/Th2 balance suggested that low dose estrogen therapy could bias the immune reaction toward a protective anti-inflammatory cytokine response. However, estrogen treatment at the onset of active EAE failed to reduce disease severity, a result that is consistent with the hypothesis that naive cells are more sensitive to sex hormones than differentiated effector cells. These data suggest that treatment with low doses of estrogen can reduce the capacity of developing myelin-reactive T cells to initiate disease and challenges the idea that increased susceptibility to autoimmunity in females is dependent on homeostatic levels of estrogen.     

Synergistic action of human recombinant tumor necrosis factor with endotoxins or nontoxic poly A:U against solid Meth A tumors in mice

Summary Antitumor effects of i.v. injected human recombinant tumor necrosis factor (rTNF) against solid Meth A tumors in mice appeared to be critically dependent on the dose and were limited by its toxicity. Extensive necrosis and complete cures were only induced by doses having untoward effects, such as diarrhea, hypothermia, ruffled fur, and lethargy. Murine tumor necrosis serum (TNS, 0.5 ml) had about the same antitumor potential and induced all side effects except diarrhea. More extensive necrosis and approximate doubling of the incidence of complete regression in the absence of gross side effects were observed upon administration of a low dose of rTNF combined with detoxified endotoxin, nontoxic poly A:U, or submicrogram doses of toxic endotoxin. The separate constituents had little antitumor effects, if any at all. Increasing the dose of toxic endotoxin resulted in a further potentiation of necrosis, overt toxicity, but no cures. Muramyl dipeptide and interferon / did not potentiate effects of rTNF. In vitro growth of Meth A cells was not inhibited by toxic endotoxin, rTNF or the combination, although TNS was highly inhibitory. Data show that therapeutic effects of rTNF and its synergy with endotoxin are not due to direct effects on the tumor cells and that the extent of prompt in vivo tumor necrosis does not predict the course of tumor growth. Therapeutic effects of both TNS and toxic endotoxin probably involve a synergy between low levels of TNF and other factors/effects induced by endotoxin. Detoxified endotoxin and poly A:U probably induce the latter effects and little or no TNF, so explaining the absence of side effects, their weak antitumor potential, and their powerful synergistic action with rTNF. A role for interferon / as an induced synergistic factor is not likely. Muramyl dipeptide and TNF might share properties needed for synergy with endotoxins. Present address: Department of Immunotoxicology, State University of Utrecht, Biltstraat 172, 3572 BP Utrecht, The Netherlands     

十溴联苯醚（BDE-209）短期暴露对成年期小鼠的免疫毒性研究

为了探讨十溴联苯醚（BDE-209）短期暴露对成年期小鼠免疫毒性及机体自我修复能力的影响，构建了雌性Balb/c小鼠BDE-209短期暴露及恢复模型。分别于给药结束后的第1 d和第21 d考察脏器指数、免疫球蛋白、淋巴细胞增殖、脂质过氧化、免疫细胞因子及相关基因变化；在此基础上，采用综合生物标志物响应结合主成分和析因分析综合评估BDE-209对成年期小鼠的免疫毒性。结果显示，BDE-209可降低小鼠的免疫器官指数，并伴随氧化损伤；BDE-209可刺激IgG分泌，抑制脾淋巴细胞增殖；BDE-209可改变Th1、Th2细胞相关细胞因子分泌及基因表达，进而引起Th1/Th2失衡。综合分析表明，BDE-209的免疫毒性在暴露结束21 d后可得到改善，BDE-209的暴露剂量和是否度过恢复期之间存在交互影响。结果表明，BDE-209短期暴露对成年期小鼠具有免疫毒性，但该毒性效应可通过机体的自我修复得到一定程度的改善。     

SOCS1 is a critical inhibitor of interferon gamma signaling and prevents the potentially fatal neonatal actions of this cytokine.

Mice lacking suppressor of cytokine signaling-1 (SOCS1) develop a complex fatal neonatal disease. In this study, SOCS1-/- mice were shown to exhibit excessive responses typical of those induced by interferon gamma (IFNgamma), were hyperresponsive to viral infection, and yielded macrophages with an enhanced IFNgamma-dependent capacity to kill L. major parasites. The complex disease in SOCS1-/- mice was prevented by administration of anti-IFNgamma antibodies and did not occur in SOCS1-/- mice also lacking the IFNgamma gene. Although IFNgamma is essential for resistance to a variety of infections, the potential toxic action of IFNgamma, particularly in neonatal mice, appears to require regulation. Our data indicate that SOCS1 is a key modulator of IFNgamma action, allowing the protective effects of this cytokine to occur without the risk of associated pathological responses.     

Gestational attenuation of Lyme arthritis is mediated by progesterone and IL-4

Infection of different strains of laboratory mice with the agent of Lyme disease, Borrelia burgdorferi, results in arthritis, the severity of which has been correlated with the dominance of Th1 cytokines. In this study, we demonstrate that changes in B. burgdorferi-specific immunologic responses associated with pregnancy can alter the outcome of Lyme arthritis in mice. Whereas nonpregnant female C3H mice consistently developed severe Lyme arthritis, pregnant mice had a marked reduction in arthritis severity that was associated with a slight reduction in IFN-gamma and markedly increased levels of IL-4 production by B. burgdorferi-specific T cells. Similar reductions in arthritis severity and patterns of cytokine production were observed in nonpregnant, progesterone-implanted mice. Ab neutralization of IL-4 in progesterone-implanted mice resulted in severe arthritis. Our results are consistent with the known shift toward Th2 cytokine expression at the maternal-fetal interface, and are the first to show a pregnancy-related therapeutic effect in an infectious model.     

Differential priming for endotoxin-induced circulating cytokine production by tumor necrosis factor-alpha and interleukin 1 beta

In unprimed mice, a single injection of a non-lethal dose of lipopolysaccharide (LPS) produced a rise in tumor necrosis factor (TNF) and interleukin 6 (IL 6) activities. Peak serum concentrations were attained, respectively, 1.5 hr and 2.5 hr after the challenge. Pretreatment with recombinant human TNF-alpha (rHuTNF) had a priming effect for enhanced production of both serum cytokines without any change in kinetics. The enhancement was more pronounced in the TNF (15-fold) than in the IL 6 (4-fold) response. Recombinant murine TNF caused a comparable increase in LPS-induced cytokine release. In contrast, comparable pretreatment with another macrophage-derived cytokine, recombinant human interleukin 1 beta (HuIL1-beta), revealed a negative effect on LPS-induced TNF release whereas IL 6 in the blood reached levels similar to those found after priming with rTNF. Moreover, when administered in combination with rHuTNF, rHuIL1-beta inhibited the priming effect on TNF autocrine production.     

IL-13 overexpression predisposes to anaphylaxis following antigen sensitization

Anaphylaxis represents an extreme form of allergic reaction. This acute-phase component of allergy and asthma is triggered by allergen-induced degranulation of mast cells following the cross-linking of cell surface-bound, allergen-specific IgE, resulting in the liberation of inflammatory mediators and the development of bronchoconstriction. We used IL-13 transgenic mice to investigate the role of this Th2 cell-derived cytokine in the onset of allergic disease. Strikingly, IL-13-transgenic mice were highly predisposed to fatal anaphylaxis following Ag sensitization. This response correlated with substantially elevated levels of circulating Ag-specific IgE, mast cell degranulation, and histamine release. Furthermore, allergen exposure also induced phenotypic changes typical of asthma, including pulmonary fibrosis, goblet cell hyperplasia, elevated Th2 cytokines, eosinophilia, and airways occluded by mucus and Charcot-Leyden crystals. Expression of IL-4 was not required for the induction of IgE-mediated responses. These data represent the first characterization of a functional role for IL-13-induced IgE in the generation of immediate hypersensitivity reactions and highlight the importance of IL-13 in the development of the symptoms of atopy. The systemic regulation of this response makes these mice an important resource for studying atopic responses.     

Human recombinant interleukin-1 beta- and tumor necrosis factor alpha-mediated suppression of heparin-like compounds on cultured porcine aortic endothelial cells

Cytokines are known to tip the balance of the coagulant-anticoagulant molecules on the endothelial cell surface toward intravascular coagulation. Their effects on endothelial cell surface-associated heparin-like compounds have not been examined yet. Incorporation of [35S]sulfate into heparan sulfate on cultured porcine aortic endothelial cells was suppressed by human recombinant interleukin-1 beta (rIL-1 beta) or tumor necrosis factor alpha (rTNF alpha) in a dose- and time-dependent manner with little effect on cell number, protein content, and [3H]leucine incorporation of cells. Maximal inhibition was achieved by incubation of cells with 100 ng/ml of rIL-1 beta or 5 ng/ml of rTNF alpha for 12-24 hours, resulting in a reduction of the synthesis of heparan sulfate on the cell surface by approximately 50%. The dose dependency was consistent with that seen in the stimulation of endothelial cell procoagulant activity by each cytokine. The suppression of heparan sulfate synthesis was sustained for at least 48 hours after pretreatment of cells with cytokines and was unchanged after the addition of indomethacin or polymyxin B. The rate of degradation of prelabeled 35S-heparan sulfate on the cell surface was not altered by cytokine treatments. Neither the size, the net negative charge, nor the proportion of the molecule with high affinity for antithrombin III of endothelial cell heparan sulfate was changed by cytokines. Furthermore, specific binding of 125I-labeled antithrombin III to the endothelial cell surface was reduced to 40-60% of control by cytokines. In parallel with reduction in binding, antithrombin III cofactor (heparin-like) activity was partially diminished in cytokine-treated endothelial cells. Thus, cytokine-mediated suppression of heparin-like substance on endothelial cells appears to be another cytokine-inducible endothelial effects affecting coagulation.