Tumor necrosis factor production capacity as a potentially useful parameter to monitor disease activity in multiple sclerosis

The aim of this study was to develop a test allowing to monitor disease activity in patients with multiple sclerosis (MS). A simple, fast and reliable test was used to assess the cytokine production capacity of blood leucocytes. The whole blood test (WBT) involved in vitro stimulation of a whole blood sample with either the mitogen phytohaemagglutinin (PHA), or specific antigens. We focused our attention on the production of tumor necrosis factor alpha (TNF), because of the possible involvement of this cytokine in MS pathogenesis. Under in vitro stimulation with PHA or MBP, TNF production was found to be significantly higher in patients during the clinical relapses than during remissions. The increment of TNF production correlated with the severity of the relapses, as determined by the modification of Kurtzke EDSS scale. Moreover, each clinical relapse appeared to be preceded by a peak of TNF production. We then retrospectively analysed 21 patients with the relapsing-remitting form of the disease, in whom the WBT was performed every 2-4 weeks, for periods ranging from 16 to 52 months. Seventy-three peaks of TNF production (defined as the doubling or more of the individual baseline value, which was found to be stable for each patient during remissions), and 47 relapses, including 36 objective and 11 subjective, were observed. Forty-seven out of the 73 TNF peaks were followed by or concomitant with a clinical relapse. In 10 out of the 26 cases where no relapse followed the TNF peak, another cause (mainly infections) of increased TNF production was found. Thus, by excluding other causes, the specificity of the WBT, i.e., the probability to develop a relapse when a TNF peak was found to be 74.6% (47/63). The sensitivity of the WBT was 100%, since all the 47 relapses were preceded by a TNF peak. Assessment of TNF production capacity by the WBT may thus be useful in the follow-up of MS patients, particularly for the follow-up of various treatments. Information provided by the WBT may also be useful to orientate the therapeutic decision for an incipient relapse. Earlier treatment is likely to result in an improved prevention of neurological damage.

Septic Shock due to Cytomegalovirus Infection in Acute Respiratory Distress Syndrome after Falciparum Malaria

Incidence of falciparum malaria in developed countries has increased in recent years due to tourism to tropical countries and immigration from Asia and Africa. In Switzerland, about 250 cases of malaria were reported in 1994 to the Federal Office of Health, including three cases with fatal outcome.1 The most commonly described complications of plasmodia infection are cerebral malaria, acute renal failure, and severe anemia with disseminated intravascular coagulation. However, pulmonary involvement occurs in 3 to 10% of cases and represents the most serious complication of this infection, with a lethality of 70%.2,3 Furthermore, a pronounced general immunosuppression has been reported in malaria patients, which may predispose them to opportunistic infections.4 We report a case of Plasmodium falciparum infection complicated by severe acute respiratory distress syndrome (ARDS) with development of systemic cytomegalovirus (CMV) infection leading to death. This evolution implies a severe immune deficiency associated with malaria, as previously suggested in the literature.

Expression of major histocompatibility complex antigens on mouse brain microvascular endothelial cells in relation to susceptibility to cerebral malaria

The physiopathology of experimental cerebral malaria (CM), an acute neurological complication of Plasmodium berghei ANKA (PbA) infection, involves interferon-gamma (IFN-gamma) and tumour necrosis factor-alpha (TNF-alpha), two cytokines that are known to modulate major histocompatibility complex (MHC) molecule expression. The aim of this study was to evaluate whether the genetic susceptibility to CM is related to the constitutive or IFN-gamma-induced expression of MHC molecules on brain microvessels. To this end, brain microvascular endothelial cells (B-MVEC) were isolated from CM-susceptible (CM-S, CBA/J) and resistant (CM-R, BALB/c) mice. By flow cytometry, we found that less than 5% of CM-S B-MVEC constitutively expressed MHC class I molecules, in contrast to up to 90% of CM-R B-MVEC. Upon stimulation with IFN-gamma, the percentage of positive cells for MHC class I molecules in CM-S B-MVEC became comparable to CM-R B-MVEC, but a higher fluorescence intensity existed on CM-S B-MVEC compared with CM-R B-MVEC. MHC class II molecules were not constitutively expressed on B-MVEC from either strain. IFN-gamma-induced expression of MHC class II (I-A, I-E) molecules was significantly higher in CM-S than CM-R B-MVEC both in percentage of positive cells and fluorescence intensity. These data demonstrate that absent or low MHC class I and higher inducibility of MHC class II expression on B-MVEC are associated with the genetic susceptibility to CM.

Interleukin-10 modulates susceptibility in experimental cerebral malaria

In this study, we examined the effects of interleukin-10 (IL-10) on the outcome of experimental cerebral malaria (CM), a lethal neurological syndrome that occurs in susceptible strains of mice after infection with Plasmodium berghei ANKA (PbA). Constitutive IL-10 mRNA levels were significantly higher in the spleen and brain of resistant animals. In vivo neutralization of endogenous IL-10 in CM-resistant mice induced the neurological syndrome in 35.7% of these mice, as opposed to 7.7% in controls. IL-10 inhibited PbA antigen-specific interferon-gamma (IFN-gamma) production in vitro but not tumour necrosis factor (TNF) serum levels in vivo. Susceptible mice, on the other hand, were significantly protected against CM when injected with recombinant IL-10. Overall, our findings suggest that IL-10 plays a protective role against experimental cerebral malaria.

Role of platelet adhesion in homeostasis and immunopathology

Various molecules expressed on the surface of platelets have been shown to mediate the protective or deleterious role of these cells in immuno-inflammatory mechanisms. Increasing evidence points to the involvement of the cell adhesion molecules, gpIIb-IIIa, P-selectin, CD31, LFA-1, and CD36 in the interaction between platelets and endothelial cells as well as other cell types. The possible role of these molecules in the ability of platelets to support endothelium and to protect against tumour necrosis factor mediated cytolysis or parasitic invasion are reviewed. The involvement of platelets as effectors of tissue damage in cerebral malaria, lipopolysaccharide induced pathology, and pulmonary fibrosis is also discussed. This has then been extended to include the intercellular mechanisms underpinning their pathogenic role in metastasis, transplant rejection, stroke, brain hypoxia, and related conditions. A better understanding of the complex regulation and hierarchical organisation of these various platelet adhesion molecules may prove useful in the development of new approaches to the treatment of such diseases.

Crucial role of tumor necrosis factor (TNF) receptor 2 and membrane-bound TNF in experimental cerebral malaria

Tumor necrosis factor (TNF) has been implicated in the pathogenesis of experimental cerebral malaria (CM), but the respective role of its two types of receptors has not been established. A significant increase in the expression of TNF-receptor 2 (TNFR2, p75), but not of TNFR1 (p55), was found on brain microvessels at the time of CM in susceptible animals. Moreover, mice genetically deficient for TNFR2 (Tnfr2null) were significantly protected from experimental CM, in contrast to TNFR1-deficient (Tnfr1null) mice, which were as susceptible as wild-type mice. To identify the factors involved in the protection from CM conferred by the lack of TNFR2, we assessed in both knockout and control mice the serum concentrations of mediators that are critical for the development of CM, as well as the up-regulation of intercellular adhesion molecule-1 (ICAM-1) in the brain microvessels. No significant difference in serum levels of TNF and interferon-gamma was found between infected wild-type and Tnfr1null or Tnfr2null mice. Interestingly, the pronounced ICAM-1 up-regulation and leukocyte sequestration, typically occurring in brain microvessels of CM-susceptible animals, was detected in infected control and Tnfr1null mice-both of which developed CM-whereas no such ICAM-1 up-regulation or leukocyte sequestration was observed in Tnfr2null mice, which were protected from CM. Making use of microvascular endothelium cells (MVEC) isolated from wild-type, Tnfr1null or Tnfr2null mice, we show that soluble TNF requires the presence of both TNF receptors, whereas membrane-bound TNF only needs TNFR2 for TNF-mediated ICAM-1 up-regulation in brain MVEC. Thus, only in MVEC lacking TNFR2, neither membrane-bound nor soluble TNF cause the up-regulation of ICAM-1 in vitro. In conclusion, these results indicate that the interaction between membrane TNF and TNFR2 is crucial in the development of this neurological syndrome.

Modulation of soluble and membrane-bound TNF-induced phenotypic and functional changes of human brain microvascular endothelial cells by recombinant TNF binding protein I

In this study, the effects of TNF binding protein I (TBP I) on TNF-induced changes of human brain microvascular endothelial cells (MVEC) were investigated. TBP I completely abolished TNF-induced IL-6 production and E-selectin induction, while it partially inhibited TNF-induced IL-8 production and up-regulation of ICAM-1 and VCAM-1. Moreover, TBP I significantly inhibited TNF-induced cytotoxicity and leukocyte adherence on human brain MVEC. The inhibitory activity of TBP I for TNF was dose-dependent and related to the time of administration after TNF stimulation. In addition, TBP I inhibited membrane-bound TNF induced activation of human brain MVEC, but the concentration required was about 10-fold higher than that for soluble TNF. These results indicate a therapeutic potential for TBP I in diseases of the central nervous system associated with TNF overproduction.

Generation of a mouse tumor necrosis factor mutant with antiperitonitis and desensitization activities comparable to those of the wild type but with reduced systemic toxicity

In this study, we investigated whether the recently identified lectin-like domain of tumor necrosis factor (TNF) is implicated in its biological activities on mammalian cells. To this end, a mouse TNF (mTNF) triple mutant, T104A-E106A-E109A mTNF (referred to hereafter as triple mTNF), lacking the lectin-like affinity of mTNF for specific oligosaccharides, was compared with the wild-type molecule for various TNF effects in vitro and in vivo. The triple mTNF displayed a 50-fold-reduced TNF receptor 2 (TNFR2)-mediated bioactivity but only a 5-fold-reduced TNFR1-mediated bioactivity in vitro. The specific activity of the triple mutant on L929 fibrosarcoma cells was slightly reduced compared with that of the wild type. We subsequently assessed the systemic toxicity of triple versus wild-type mTNF, since TNFR2 is partially implicated in this activity. The triple mTNF had a significantly reduced toxicity compared with that of wild-type mTNF in vivo. Moreover, we compared the effects of the triple and the wild-type mTNFs in TNFR1-mediated phenomena, such as (i) induction of tolerance towards a lethal mTNF dose and (ii) protective activity in cecal ligation and puncture-induced septic peritonitis. No significant differences between the mutant and wild-type forms were observed. In conclusion, these results indicate that triple mTNF, lacking TNF's lectin-like binding capacity, has reduced systemic toxicity but retains the tolerance-inducing and peritonitis-protective activities of wild-type mTNF.

TNF receptors in the microvascular pathology of acute respiratory distress syndrome and cerebral malaria

The microvascular endothelial cell (MVEC) is a major target of inflammatory cytokines overproduced in conditions such as sepsis and infectious diseases. We addressed the direct and indirect effects of tumor necrosis factor (TNF) on endothelial cells that can be relevant for the pathogenesis of septic shock, with particular attention to the acute respiratory distress syndrome (ARDS) and to cerebral malaria (CM). To identify functional and phenotypical changes occurring in MVEC during sepsis, we isolated these cells from the lungs of patients who died of ARDS. The constitutive expression of ICAM-1 and, to a lesser extent, VCAM-1, CD14, and TNFR2 were significantly increased on MVEC isolated from ARDS patients compared with control MVEC, whereas ELAM-1 and TNFR1 were not increased. We found that lung MVEC from ARDS patients present a procoagulant profile and a higher production capacity of interleukin-6 (IL-6) and IL-8 when compared with those from controls. As in pulmonary MVEC derived from ARDS patients, the only TNFR type found up-regulated in brain microvessels during CM was TNFR2. This increase in TNFR2 expression only occurred in CM-susceptible mice at the onset of the neurological syndrome. We therefore investigated the role of TNFR2 in the development of this brain pathology by comparing the incidence of CM in wild-type and TNF receptor knock-out mice. Unexpectedly, the genetic deficiency in TNFR2, but not in TNFR1, conferred protection against CM and its associated mortality. No ICAM-1 up-regulation was detected in the brain of Tnfr2 knockout mice, indicating a close correlation between protection against CM-associated brain damage, absence of TNFR2, and absence of ICAM-1 up-regulation in the brain. Our results in ARDS and CM indicate a specific up-regulation of TNFR2, but not of TNFR1, on lung and brain MVEC, respectively. This increased expression leads to a reduced sensitivity toward TNFR1-mediated phenomena, such as the sensitized TNF cytolytic activity on lung MVEC. In contrast, the sensitivity toward TNFR2-mediated effects, such as ICAM-1 induction by membrane-bound TNF, is increased on brain and lung MVEC expressing increased levels of TNFR2. Therefore, the ICAM-1-inducing effect, rather than the direct cytotoxicity of inflammatory cytokines, such as TNF, appears to be crucial in ARDS and CM-induced endothelial damage, and TNFR2 seems to play an important role in this activity in vivo.

Haemostatic properties of human pulmonary and cerebral microvascular endothelial cells

Little is known on the haemostatic profiles of human microvascular endothelial cells (MVEC) from different tissues. In addition it is not known whether MVEC from patients display the same haemostatic pattern as MVEC coming from healthy controls. To address these questions MVEC from human lung and brain were isolated and stimulated with tumour necrosis factor alpha (TNF) and E. coli lipopolysaccharide (LPS) for 24 h. The level and the kinetics of procoagulant activity (PCA) and thrombomodulin (TM) expression were found to be different depending on the tissue of origin and on the agonist used. In particular, the inducible PCA was higher in lung than in brain MVEC, an observation that may be related to the frequency of lung involvement in septic shock. Differences were also observed for tissue plasminogen activator (t-PA) and plasminogen activator inhibitor 1 (PAI-1) with MVEC supernatants or cell lysates. These variables were then measured in lung MVEC purified from patients with acute respiratory distress syndrome (ARDS) and compared to controls. Cells from ARDS patients constitutively expressed more PCA and PAI-1 than controls. The fibrinolytic potential, expressed as t-PA/PAI-1 ratio, was lower in ARDS than in lung MVEC. It is concluded that MVEC display different haemostatic features depending on the tissue they come from and that lung MVEC from ARDS patients present a procoagulant profile when compared with those from controls.

Tumor necrosis factor in Plasmodium falciparum malaria: high plasma level is associated with fever, but high production capacity is associated with rapid fever clearance

In the present study, we investigated 91 patients with Plasmodium falciparum malaria of different severity in a highly endemic area. Patients were examined at least twice daily until clearance of parasites and fever. Plasma cytokine concentrations without and after ex vivo PHA stimulation of whole blood were determined. On admission we found elevated plasma concentrations of TNF, IFN-gamma, and IL-10 compared to levels during and after chemotherapy. Plasma TNF levels on admission were significantly different between patients with severe and mild malaria (differentiated in schoolchildren and adults). The PHA elicited TNF production capacity of peripheral blood leucocytes was suppressed during the acute phase of malaria. High TNF production capacity was associated with faster fever clearance and parasite clearance and, in patients with severe malaria, with higher blood glucose levels. In conclusion we observed circulating TNF concentrations in malaria patients dependent on the severity of disease, which is itself dependent on age, and an association of a high TNF production capacity with parameters for accelerated cure and good prognosis.

Brain microvascular endothelial cells and leukocytes derived from patients with multiple sclerosis exhibit increased adhesion capacity

The adhesion properties of brain microvascular endothelial cells (MVEC) and leukocytes derived from patients with multiple sclerosis (MS) were investigated. Leukocytes and brain MVEC from MS patients exhibited significantly higher adhesion capacity than the same cells isolated from normal donors. Flow cytometry showed that MS-derived brain MVEC constitutively expressed higher levels of ICAM-1 and contained an increased proportion of MHC class II positive cells than normal brain MVEC. In contrast, no difference was seen for vascular cell adhesion molecule-1 and endothelial cell leukocyte adhesion molecule-1. Circulating leukocytes from MS patients expressed higher levels of LFA-1, a ligand of intercellular adhesion molecule-1 (ICAM-1), than did normal leukocytes. The data presented here suggest that the ICAM-1/LFA-1 interaction may determine cytoadherence of leukocytes to brain MVEC in MS.

Correlation of tumor necrosis factor levels in the serum and cerebrospinal fluid with clinical outcome in Japanese encephalitis patients

To investigate the prognostic role of tumour necrosis factor (TNF) in Japanese encephalitis virus (JEV) infection, we measured the immunoreactive forms of TNF concentrations in the serum and cerebrospinal fluid (CSF) of 47 laboratory-confirmed cases of JE. It was observed that TNF levels were elevated (> 15 pgm/ml) in all the 47 serum samples (range 19.4-923.8 pg/ml), while in 46/47 CSF samples TNF was elevated (range 10.8-376 pg/ml). The mean (SD) TNF levels in the serum of fatal cases was 234.34 pg/ml (304.40) as compared to the mean of 85.31 pg/ml (SD 153.92) in nonfatal cases. Similar observations were also made with respect to the TNF levels in the CSF; the mean of fatal cases was 69.39 pg/ ml (SD 39.00) in contrast to the mean of 62.41 pg/ml (SD 75.25) of nonfatal cases. The increase in TNF levels did not show any correlation to the duration of illness. It was further observed that the mortality rate increased with increasing concentrations of TNF in the serum and CSF. Correlation of laboratory parameters to final outcome revealed that TNF concentrations above 50 pg/ ml in serum correlated significantly (P = .05) with a fatal outcome, whilst high levels of JEV-IgM antibodies (> 500 units) in the CSF correlated with a nonfatal outcome (P = .03). These results suggest that TNF can be used as a possible prognosticator of a fatal outcome in JEV infection.

Respective role of TNF receptors in the development of experimental cerebral malaria

The respective role of the two receptors of TNF in experimental cerebral malaria (CM) was investigated. During CM, a significant upregulation of TNF-receptor 2 (TNFR2), but not of TNFR1, was found in brain microvessels of susceptible, but not resistant mice. Mice genetically deficient for TNFR2 (Tnfr2null) were significantly protected from CM, while TNFR1-deficient (Tfnr1null) mice were as susceptible as wild-type mice. The protection of Tnfr2null mice could be explained by their absence of ICAM-1 upregulation and leukocyte sequestration, known to occur in brain microvessels of CM-susceptible animals.

Direct cell/cell contact with stimulated T lymphocytes induces the expression of cell adhesion molecules and cytokines by human brain microvascular endothelial cells

Upon inflammation, stimulated, but not resting T lymphocytes cross the blood-brain barrier and migrate into the central nervous system. This study shows that direct contact between stimulated T lymphocytes and human brain microvascular endothelial cells (HB-MVEC) induces phenotypic and functional changes on the latter cells. Plasma membranes isolated from stimulated T lymphocytes (S-PM) up-regulated the expression of intercellular adhesion molecule-1 (ICAM-1), vascular cell adhesion molecule-1 (VCAM-1), and E-selectin on isolated HB-MVEC. In addition, HB-MVEC activated by S-PM secreted interleukin (IL)-6 and IL-8. The levels of ICAM-1, E-selectin, IL-6, and IL-8 expressed in S-PM-activated HB-MVEC were similar to those observed with 1000 U/ml tumor necrosis factor (TNF). In contrast, VCAM-1 expression was 15% of that induced by TNF. Inhibitors of TNF diminished (< or = 45%), but did not abolish the expression of cell adhesion molecules and IL-6 induced by S-PM, IL-8 production being insignificantly affected (< or = 10%). This suggests that membrane-associated TNF was partially involved in HB-MVEC activation. The present study demonstrates that stimulated T lymphocytes are able to activate HB-MVEC upon direct cell contact. This novel mechanism of inducing the expression of cell adhesion molecules may prompt the initial adhesion of stimulated T lymphocytes to brain endothelium.

Expression and release of tumor necrosis factor-alpha by explants of mouse cornea

PURPOSE

To elucidate a possible target of immunosuppressive agents widely used in the treatment of corneal disorders, the authors determined whether corneal cells are capable of expressing and releasing tumor necrosis factor-alpha (TNF alpha) on lipopolysaccharide (LPS) stimulation, and they investigated whether TNF alpha production can be modulated by pharmacologic agents.

METHODS

Trephined central corneas from C57BL/6 mice were kept in culture for 3 days. Release of TNF alpha after a 24-hour stimulation with LPS (1 microgram/ml) into the culture medium was determined both by bioassay and by enzyme-linked immunosorbent assay. Expression of TNF alpha mRNA after 6-hour stimulation was examined by polymerase chain reaction. Immunofluorescent staining on cryostat sections of cultured corneas was performed to localize TNF alpha in the tissue. Corneal explants were pretreated with immunosuppressive agents (prednisolone, budesonide, cyclosporin A) for 48 hours, followed by 6-or 24-hour stimulation with LPS in the continuous presence of the agents.

RESULTS

Lipopolysaccharide stimulated TNF alpha release into the culture medium. The addition of budesonide (10(-7) M) or prednisolone (10(-6) M) significantly inhibited LPS-induced TNF alpha release, whereas cyclosporin A (10(-7) - 10(-5) M) had no marked effect. Levels of TNF alpha mRNA in corneal explants increased fivefold after stimulation with LPS. Immunohistochemical staining revealed that TNF alpha was expressed in the epithelial cells. Budesonide markedly decreased mRNA expression and abolished immunostaining of TNF alpha stimulated by LPS.

CONCLUSIONS

TNF alpha is produced and released by the epithelial cells of mouse central cornea in response to LPS. Contrary to cyclosporin A, corticosteroids such as prednisolone and budesonide potently inhibit TNF alpha production.

Streptococcus mitis cell walls and lipopolysaccharide induce lethality in D-galactosamine-sensitized mice by a tumor necrosis factor-dependent pathway

Purified cells walls of Streptococcus mitis induced tumor necrosis factor in vitro in whole blood of both lipopolysaccharide (LPS)-sensitive OF1 and LPS-resistant C3H/HeJ mice. They were as effective as heat-killed bacteria in inducing death in both strains of mice sensitized with D-galactosamine. Lethality was suppressed by anti-tumor necrosis factor antibodies. The histopathophysiological findings in mice after challenge with LPS or gram-positive cell walls were indistinguishable.

Phenotypic and functional analysis of pulmonary microvascular endothelial cells from patients with acute respiratory distress syndrome

The purpose of this study was to assess the phenotypic and functional characteristics of pulmonary microvascular endothelial cells (MVEC) in the acute respiratory distress syndrome (ARDS). Pulmonary MVEC were isolated from the lungs of five patients who developed ARDS, and from four patients who had undergone a lobectomy for lung carcinoma, as controls. Adhesion molecules and other surface molecules were quantitated on these cells by flow cytometry and the cytokines IL-6 and IL-8 were measured in the supernatants by ELISA. The constitutive expression of intercellular adhesion molecule and, to a lesser extent, vascular adhesion molecule-1, was significantly increased on MVEC isolated from all ARDS patients, as compared with control MVEC. CD14 and TNF receptor p75 were also increased on the surface of MVEC isolated from most patients with ARDS. The expression of ELAM-1 and TNF receptor p55 (TNF-R1) was not significant on the surface of either ARDS-derived or control pulmonary MVEC. The constitutive ability of ARDS-derived MVEC to secrete IL-6 and IL-8 was markedly enhanced as compared with control MVEC. Upon in vitro restimulation by TNF, pulmonary MVEC from ARDS patients showed lower ICAM-1 upregulation, but similar IL-6 and IL-8 production capacity, when compared with control MVEC. Selective differences were found in cell adhesion molecules and TNF receptor p75 expression on pulmonary MVEC isolated from patients with ARDS. These pulmonary MVEC spontaneously overexpress some adhesion molecules and produce greater amounts of the pro- and anti-inflammatory cytokines IL-8 and IL-6. These findings suggest that ICAM-1 and TNF receptor p75 may have a particular involvement in the pathogenesis of acute lung injury, and that the endothelium may be an important source of cytokines detected in broncho-alveolar lavage during this syndrome. It is tempting to hypothesize that the differences observed result from either a genetic predisposition to ARDS based on MVEC phenotype or to a long-lived MVEC phenotypic change induced by ARDS. By allowing the monitoring of phenotypic and functional parameters, cultures of pulmonary MVEC isolated from ARDS patients may thus represent a useful system to analyze further the mechanisms of acute lung injury and to evaluate the efficacy of drugs, including inhibitors of cytokines and of adhesion molecules.

Plasma concentrations of cytokines, their soluble receptors, and antioxidant vitamins can predict the development of multiple organ failure in patients at risk

OBJECTIVES

The aims of this study were: a) to evaluate plasma concentrations of cytokines and their soluble receptors, as well as antioxidant substances in patients at high risk of developing multiple organ failure; b) to investigate early change: and c) to examine the possible prognostic value of these elements.

DESIGN

Prospective analysis.

SETTING

Surgical intensive care unit (ICU) of a university hospital.

PATIENTS

sixteen patients at risk for multiple organ failure.

MEASUREMENTS AND MAIN RESULTS

Ten patients developed multiple organ failure and five of them died. Whereas tumor necrosis factor-alpha (TNF-alpha) plasma concentrations were only borderline higher in patients developing multiple organ failure, TNF-soluble receptors 55 and 75 were significantly increased during all ICU days compared with patients not going into organ failure. Interleukin-6 plasma concentrations were higher in patients developing multiple organ failure during the first 2 days after ICU admission. The antioxidant vitamin C was significantly decreased in patients going into multiple organ failure during all ICU days. Other biochemical markers of antioxidant activity, such as vitamin E, copper, and zinc plasma concentrations, did not differ between the two groups.

CONCLUSIONS

Our data suggest that there is a marked increase in anti-TNF activity and a decrease of antioxidant defense in patients at risk of developing multiple organ failure. The predictive value of plasma concentrations of circulating TNF-soluble receptors and vitamin C in this type of patient needs further evaluation.

Prediction of accelerated cure in Plasmodium falciparum malaria by the elevated capacity of tumor necrosis factor production

Cytokine regulation was compared in three groups of Gabonese patients with Plasmodium falciparum malaria before and after therapy; adults with uncomplicated malaria, children with uncomplicated malaria, and children with severe malaria. Plasma levels of tumor necrosis factor (TNF), interleukin-6 (IL-6), IL-8, TNF receptors (TNF R), and the TNF/TNF R ratios were significantly higher in severe malaria compared with uncomplicated malaria. High plasma levels of all immunoregulatory molecules were associated with slow cure after therapy. In all patients, phytohemagglutinin-induced cytokine production was depressed on admission compared with convalescence. A significant difference was the higher TNF production capacity in patients with severe malaria on day 2 and day 5 compared with that in patients with uncomplicated malaria. In contrast to IL-6 and IL-8, a high TNF production capacity during the acute phase of malaria predicted a rapid clinical and parasitologic cure in the patients. These findings illustrate the dual role of TNF in the protection and pathology of malaria.

Endogenous TNF-alpha modulates the proliferation of rat mesangial cells and their prostaglandin E2 synthesis

Mesangial cells (MC) are one cellular source of tumor necrosis factor alpha (TNF) within the kidney as shown by experimental stimulation with endotoxin. TNF was shown to increase MC synthesis of prostaglandins E2 (PGE2) which down regulate MC proliferation. The involvement of endogenous TNF as an autocrine factor to control MC proliferation is unknown. This role was evaluated in vitro by addition of anti-TNF immunoglobulins and soluble TNF receptor-I (sTNF-RI) on rat MC. Anti-TNF immunoglobulins and sTNF-RI induced a dose-dependent increase of cell proliferation when the cells were quiescent in 0.5% FCS P = 0.002). No effect was found when the cells were growing in 10% FCS (P = 0.113). Incubation of MC with anti-TNF immunoglobulins resulted in a dose-dependent decrease of PGE2 release. In order to investigate if the effect of TNF on MC proliferation was mediated by the decrease of PGE2 release, PGE2 was added to the culture medium at concentrations of 0.1 to 10 micrograms/ml in conjunction with anti-TNF immunoglobulins. PGE2 did not modify the proliferation induced by anti-TNF immunoglobulins. We conclude that anti-TNF immunoglobulins and sTNF-RI promoted MC DNA synthesis and influenced their PGE2 release by blocking the endogenous TNF. The mechanism of action on DNA synthesis was not mediated by PGE2. This indicates that endogenous TNF has a substantial role in the control of resting mesangial cells.

Transgenic mice expressing high levels of soluble TNF-R1 fusion protein are protected from lethal septic shock and cerebral malaria, and are highly sensitive to Listeria monocytogenes and Leishmania major infections

Mice bearing a transgene coding for a soluble tumor necrosis factor receptor type 1 (TNFR1)-FcIgG3 fusion protein and placed under the control of the alpha-1-antitrypsin gene promoter were generated. Depending on the mouse line, blood levels of the protein ranged from 25 ng/ml to over 100 micrograms/ml; this level of expression was most often transmitted to the transgene-bearing progeny as a relatively stable feature. High-expressor mice were completely resistant to lipopolysaccharide-induced shock and lethality, including after D-galactosamine sensitization, and mice expressing about 1 microgram of the fusion protein/ml were partially (60%) protected. In contrast, mice expressing less than 0.1 microgram of the protein/ml were more sensitive than controls with respect to incidence and time of death, even though the biological activity of serum tumor necrosis factor (TNF) was partially neutralized. High-expressor mice of the adequate genetic background were markedly, although not completely, protected from death by cerebral malaria after injection with Plasmodium berghei. They were highly susceptible to Listeria monocytogenes, dying from bacterial dissemination after sublethal infection, and to Leishmania major, displaying severe, non-healing lesions after local infection. Under the same conditions, mice expressing about 1 microgram protein/ml were only partially sensitive to these last agents, compared to non-transgenic littermate mice which were fully resistant. These transgenic mice represent a model of permanent, complete or partial, impairment of TNF use, which compares favorably, for ease of breeding and for the range of effects, to mice bearing gene disruptions.

Detection of a LFA-1-like epitope on the surface of erythrocytes infected with a strain of Plasmodium falciparum

The adhesion of erythrocytes infected with Plasmodium falciparum (P. falciparum) is one of the major pathological features of severe malaria. Several potential receptors to endothelium for falciparum-infected erythrocyte on endothelium have been described. Recently, the malaria binding site on ICAM-1(CD54) has been mapped to a site distinct but overlapping with the LFA-1 (CD11a/CD18) site. We detected by flow cytometry, confocal laser microscopy and immunoprecipitation, a molecule expressed at the surface of erythrocytes infected with mature stages of the M96 strain of P. falciparum that was recognized by a monoclonal antibody (mAb) (TS1/22) directed against an LFA-1 epitope. However, this molecule was not recognized by mAbs directed against other epitopes of LFA-1 or against other integrins. Furthermore, the mAb TS1/22 partially inhibited cytoadherence of parasitized red blood cells to human-brain microvascular endothelial cells. The expression of a molecule sharing an epitope with human LFA-1 integrin on the parasitized erythrocyte surface could be involved in the sequestration of these cells and thus in the pathogenesis of severe disease.

Assaying tumor necrosis factor concentrations in human serum. A WHO International Collaborative study

A collaborative study involving several international research groups was conducted in order to test the validity and reproducibility of tumor necrosis factor-alpha (TNF) measurements in serum. 58 serum samples, nine of them spiked with recombinant human TNF, were aliquoted and distributed blindly to 11 different laboratories. 20 samples were obtained from cerebral malaria patients, 20 from septic shock patients, eight from patients with rheumatoid arthritis and ten from normal blood donors. The serum samples were assayed for TNF using various immunoassays (ELISA), radioimmunoassays (RIA) and bioassays. Interassay coefficient of variance was analysed. Substantial differences were observed on terms of sensitivity and results obtained with the different commercial and in-house assays. The level of sensitivity was highest with ELISAs and bioassays. RIAs yielded the highest concentrations of TNF in the same samples as compared to those obtained by ELISAs and bioassays. These data emphasize the necessity of establishing international standards for cytokine assays in order to render the interpretation of biological and medical data more reliable.