Malaria: host-pathogen interactions, immunopathological complications and therapy

Malaria is a global tropical disease causing more than 1 million deaths and 300 million clinical cases every year. It is caused by parasites from the genus Plasmodium and is transmitted by Anopheles mosquitoes. Approximately 3 billion people live in malaria-endemic regions and a majority of them are infected. In this review, we discuss the life cycle of the parasite, the complex interactions with the human host and the ensuing immune reactions and complications. The immune system plays a dual role in malaria, by providing life-saving immunity against the parasite, but also by causing often lethal complications in a number of patients. Cytokines, chemokines and proteases are key players in the immunopathological complications, and we propose immunomodulation with dexamethasone as a promising strategy for the therapy of malaria-associated acute respiratory distress syndrome.

Virulent Toxoplasma gondii strain RH promotes T-cell-independent overproduction of proinflammatory cytokines IL12 and gamma-interferon

The aim of this study was the analysis of the cytokine response in BALB/c mice infected with the highly virulent RH or the weakly virulent Beverley strains of Toxoplasma gondii. Analysis of cytokine messages showed increased expression of IL12, IFN-gamma and TNF-alpha, but not IL4 mRNAs in spleen cells after infection with the T. gondii strains RH and Beverley. High levels of circulating IL12 and IFN-gamma were detected in the serum of mice infected with strain RH, although TNF-alpha levels remained low. In contrast, the same cytokines were detected at only low levels in the serum of mice infected with the Beverley strain. Administration of antibody against IL12 or IFN-gamma significantly delayed time to death of mice infected with strain RH compared to controls. T-Cell-deficient as well as normal mice were equally infected by strain RH, suggesting that T lymphocytes do not contribute to the response. Depletion of natural killer cells from the splenocyte population abolished the in vitro production of IFN-gamma. Together, our data suggest that the virulent strain RH induces in BALB/c mice a type 1 cytokine pattern with T-cell-independent overproduction of IL12 and IFN-gamma that may be involved in the pathogenesis of this micro-organism.

B7 interactions with CD28 and CTLA-4 control tolerance or induction of mucosal inflammation in chronic experimental colitis

CD28-B7 interaction plays a critical costimulatory role in inducing T cell activation, while CTLA-4-B7 interaction provides a negative signal that is essential in immune homeostasis. Transfer of CD45RB(high)CD4(+) T cells from syngeneic mice induces transmural colon inflammation in SCID recipients. This adoptive transfer model was used to investigate the contribution of B7-CD28/CTLA-4 interactions to the control of intestinal inflammation. CD45RB(high)CD4(+) cells from CD28(-/-) mice failed to induce mucosal inflammation in SCID recipients. Administration of anti-B7.1 (but not anti-B7.2) after transfer of wild-type CD45RB(high)CD4(+) cells also prevented wasting disease with colitis, abrogated leukocyte infiltration, and reduced production of proinflammatory cytokines IL-2 and IFN-gamma by lamina propria CD4(+) cells. In contrast, anti-CTLA-4 treatment led to deterioration of disease, to more severe inflammation, and to enhanced production of proinflammatory cytokines. Of note, CD25(+)CD4(+) cells from CD28(-/-) mice similar to those from the wild-type mice were efficient to prevent intestinal mucosal inflammation induced by the wild-type CD45RB(high) cells. The inhibitory functions of these regulatory T cells were effectively blocked by anti-CTLA-4. These data show that the B7-CD28 costimulatory pathway is required for induction of effector T cells and for intestinal mucosal inflammation, while the regulatory T cells function in a CD28-independent way. CTLA-4 signaling plays a key role in maintaining mucosal lymphocyte tolerance, most likely by activating the regulatory T cells.

Role of interleukin-12 in the induction of mucosal inflammation and abrogation of regulatory T cell function in chronic experimental colitis

IL-12 promotes Th1 cell differentiation and cell-mediated immunity. In the present study, the potential role of IL-12 was analyzed in an experimental colitis model in scid mice reconstituted with syngeneic CD45RBhighCD4+ T cells. Real-time reverse transcription-PCR studies demonstrated that IL-12 p40 mRNA in inflamed colon is induced shortly after T cell transfer and maintained at a stable level after week 4, at the time when wasting disease starts. Administration of anti-IL-12 on days 0,14, and 28 (early treatment) or on days 28, 42, and 56 (delayed treatment) after T cell transfer, effectively prevented or, respectively cured wasting disease and colitis in scid recipients. Anti-IL-12 treatment abrogated mucosal inflammation with significantly diminished leukocyte infiltration (CD4 cells, macrophages) and CD54 expression, and down-regulated proinflammatory cytokines IFN-gamma and IL-2. Of note, although splenic CD4+ T cells are unable to induce disease as a result of the presence of regulatory CD45RBlow cells, splenic CD4+ T cells, preactivated by IL-12 and anti-CD3 in vitro, were highly pathogenic in inducing severe mucosal inflammation, suggesting that IL-12 and anti-CD3 abrogated regulatory T cell function. These findings indicate that IL-12 is important for the induction of experimental colitis through effects on proinflammatory cytokine production and on regulatory T cell function.

The protective effect of IFN-gamma in experimental autoimmune diseases: a central role of mycobacterial adjuvant-induced myelopoiesis

The study of animal models for organ-specific autoimmune disease contributes to our understanding of human diseases such as multiple sclerosis and rheumatoid arthritis. Although experimental autoimmune diseases develop spontaneously in certain strains of mice, others need to be induced by administration of organ-specific autoantigen, often together with complete Freund's adjuvant (CFA), containing heat-killed mycobacteria. In the two types of models, the role of endogenous interferon-gamma (IFN-gamma) has extensively been investigated by using neutralizing anti-IFN-gamma antibodies and by employing mice genetically deficient in IFN-gamma or its receptor. In these studies disease-promoting as well as disease-protective roles of endogenous IFN-gamma have been described. Remarkably, in most models that rely on the use of CFA, there is abundant evidence for a protective role. Here, we review evidence that this role derives from an inhibitory effect of IFN-gamma on myelopoiesis elicited by the killed mycobacteria. These findings explain the bimodal role of IFN-gamma in different models of autoimmune disease and raise questions regarding the clinical relevance of these models.

In vivo neutrophil recruitment by granulocyte chemotactic protein-2 is assisted by gelatinase B/MMP-9 in the mouse

Granulocyte chemotactic protein-2 (GCP-2) of the mouse is a potent neutrophil chemotactic and activating factor in vitro and in vivo. Gelatinase B/matrix metalloproteinase-9 is released from neutrophils within 1 h after stimulation with GCP-2. In vitro neutrophil chemotaxis by GCP-2 was not impaired by specific inhibitory monoclonal antibodies (mAb) against gelatinase B, indicating that gelatinase B is not involved in chemotaxis of neutrophils through polycarbonate filters. To investigate if gelatinase B degranulation is involved in in vivo cell migration toward GCP-2, experiments were performed with gelatinase B knockout mice. When mouse GCP-2 was injected intradermally in mice, a dose-dependent neutrophil chemotactic response was observed, and this cell migration was significantly impaired in young mice by genetic gelatinase B knockout. In adult vs. young gelatinase B-deficient mice, such compensatory mechanisms as higher basal neutrophil counts and less impairment of chemotaxis toward local GCP-2 injection were observed. These experiments prove the concept that gelatinase B release under pressure of GCP-2 is a relevant, but not exclusive, effector mechanism of neutrophil chemotaxis in vivo and that known mechanisms, other than the release of gelatinase B, allow for a full-blown chemotactic response and compensate for gelatinase B deficiency in adult life in the mouse.

Prevention of experimental colitis in SCID mice reconstituted with CD45RBhigh CD4+ T cells by blocking the CD40-CD154 interactions

Increased expression of CD40 and CD40 ligand (CD40L or CD154) has been found in inflamed mucosa of human inflammatory bowel disease (IBD), and interactions between these molecules seem to be involved in local cytokine production by macrophages. However, the precise role of CD40 signaling in the pathogenesis of IBD is still poorly understood. The aim of the present study was to investigate the in vivo relevance of CD40 signaling in experimental colitis in SCID mice reconstituted with syngeneic CD45RBhighCD4+ T cells. The results demonstrated that CD40+ and CD40L+ cells as well as their mRNA levels were significantly increased in inflamed mucosa. Administration of anti-CD40L neutralizing mAb over an 8-wk period starting immediately after CD45RBhighCD4+ T cell reconstitution completely prevented symptoms of wasting disease. Intestinal mucosal inflammation was effectively prevented, as revealed by abrogated leukocyte infiltration and decreased CD54 expression and strongly diminished mRNA levels of the proinflammatory cytokines IFN-gamma, TNF, and IL-12. When colitic SCID mice were treated with anti-CD40L starting at 5 wk after T cell transfer up to 8 wk, this delayed treatment still led to significant clinical and histological improvement and down-regulated proinflammatory cytokine secretion. These data suggest that the CD40-CD40L interactions are essential for the Th1 inflammatory responses in the bowel in this experimental model of colitis. Blockade of CD40 signaling may be beneficial to human IBD.

IFN-gamma, IL-4, IL-10 and IL-12 gene expression in BCG-Leishmania vaccination of Trypanosoma cruzi-infected mice

We have previously shown that vaccination of BALB/c mice with a combination of BCG plus killed Leishmania promastigotes, applied by the i.p. route 10 and 3 days before Trypanosoma cruzi inoculation, prolonged their survival and decreased their parasitaemia. In the present study we show that the BCG-Leishmania vaccine induced higher levels of circulating IFN-gamma in acute and chronic infection of mice [on day 25 and 40 post-infection (p.i.) respectively], in comparison to unvaccinated animals (PBS-treated). Though the IFN-gamma mRNA content of spleen cells of vaccinated and infected mice (on day 25 p.i.) was similar to that of unvaccinated animals, the BCG-Leishmania vaccine enhanced significantly the production of IFN-gamma by spleen cells stimulated with T. cruzi antigens. This effect was observed to a lower extent in BCG- and Leishmania-treated mice. The BCG-Leishmania vaccine reduced the expression of the IL-10 mRNA of splenocytes as soon as day 12 p.i., before the peak parasitaemia. Such this effect was not observed in BCG- or Leishmania-treated animals. On day 25 p.i., the BCG plus Leishmania- or BCG-treatment of mice abolished the capacity of spleen cells to produce IL-10 in response to T. cruzi antigens. The levels of mIL-4 RNA and protein production were not modified in any group of mice. T. cruzi infection in BCG-Leishmania-vaccined mice stimulated an early and high production of IL-12 transcripts in spleen cells during the acute phase of the infection, that was prolonged during the chronic phase of infection. This effect was weaker or absent in BCG- and Leishmania-treated animals, respectively. These results indicate that the BCG-Leishmania vaccine stimulates the production of IL-12 and IFN-gamma, but inhibits that of IL-10 and is without effect on IL-4 when mice are infected with T. cruzi. This highlights the key role of endogenously produced IFN-gamma, IL-10 and IL-12 in the control of T. cruzi acute and chronic infection in mice and the favorable modulation of their balance by a vaccination combining BCG and Leishmania.

Bimodal role of endogenous interleukin-6 in concanavalin A-induced hepatitis in mice

Acute concanavalin A (Con A)-induced hepatitis in mice is an animal model for hepatic injury induced by activated T cells. The evolution of hepatic involvement can be followed from hour to hour by measuring serum transaminase levels. We investigated the possible role of endogenous interleukin-6 (IL-6) in this model. We found serum IL-6 levels and splenic IL-6 mRNA during Con A-induced hepatitis to be significantly lower in interferon-gamma (IFN-gamma)-deficient mice, which are resistant against the Con A-induced syndrome, than in wild-type ones, suggesting that systemic IL-6 production favors development of hepatic injury. However, IL-6-deficient mice proved to be more susceptible to the disease than wild-type mice, indicating that endogenous IL-6 plays a predominantly hepatoprotective role. Experiments in which wild-type mice were treated with anti-IL-6 antibodies, before or after Con A challenge, allowed us to reconcile these contrasting observations. The antibody injections resulted in a biphasic alteration of serum IL-6 levels, initial neutralization being followed by rebound increased levels due to accumulation of IL-6 in the form of antigen-antibody complexes. The effect of antibody on disease severity differed depending on the time of injection. Antibody injection at 2.5 h post Con A resulted in delayed disease manifestation, whereas treatment initiated before Con A resulted in accelerated disease. We conclude that endogenous IL-6 plays a bimodal role. IL-6 present before Con A challenge as well as that induced in the very early phase after Con A injection triggers hepatoprotective pathways. Continuation of IL-6 production beyond this early phase, by some other pathway, seems to be harmful to hepatocytes.

Role of interferon-gamma and nitric oxide in pulmonary edema and death induced by lipopolysaccharide

Mice given lipopolysaccharide (LPS) intravenously developed lung edema, which was maximum after 6 h. Tumor necrosis factor, interleukin 12 (IL-12), IL-6, and interferon-gamma (IFN-gamma) appeared in the serum, and levels of nitrogen oxide (NO) derivatives were increased in serum and bronchoalveolar fluid. Mice pretreated with neutralizing anti-IFN-gamma antibodies had lower serum levels of IFN-gamma, and fewer died. However, levels of other cytokines and NO derivatives as well as lung edema were unchanged. If IFN-gamma and LPS were given together, pulmonary edema was less, but levels of cytokines and NO derivatives in serum were raised, and the mortality was greater. IFN-gamma receptor knockout mice had more edema after LPS, but were less sensitive to the lethal effects. Treatment with anti-IL-12 antibody inhibited IFN-gamma induction and reduced mortality, but had no effect on the lung edema; exogenous IL-12 also failed to affect edema, but boosted serum cytokine levels and increased the mortality. Aminoguanidine, an inhibitor of NO synthase, protected against pulmonary edema, but did not modify the lethal effects of LPS. Clearly, in this model, early pulmonary edema and lethality are not directly related, and induced IFN-gamma has no role in causing early lung edema, but augments other events that result in death.

Resistance of young gelatinase B-deficient mice to experimental autoimmune encephalomyelitis and necrotizing tail lesions

Regulated expression of matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) plays a role in various physiological processes. To determine in vivo how unbalanced expression of these factors can promote or affect the course of pathologies, we knocked out the mouse gelatinase B gene by replacing the catalytic and zinc-binding domains with an antisense-oriented neomycin resistance gene. Adult gelatinase B-deficient mice and wild-type controls could be induced to develop experimental autoimmune encephalomyelitis (EAE) with similar scores for neurologic disease, blood-brain barrier permeability, and central nervous system histopathology. However, whereas diseased control animals showed necrotizing tail lesions with hyperplasia of osteocartilaginous tissue, adult gelatinase B-deficient mice were resistant to this tail pathology. Gelatinase B-deficient mice younger than 4 weeks of age were significantly less susceptible to the development of EAE than were age matched controls and, even as they aged, they remained resistant to tail lesions. These data illustrate that gelatinase B expression plays a role in the development of the immune system and that, in ontogenesis, the propensity to develop autoimmunity is altered by the absence of this MMP.

NH2- and COOH-terminal truncations of murine granulocyte chemotactic protein-2 augment the in vitro and in vivo neutrophil chemotactic potency

Chemokines are important mediators of leukocyte migration during the inflammatory response. Post-translational modifications affect the biological potency of chemokines. In addition to previously identified NH2-terminally truncated forms, COOH-terminally truncated forms of the CXC chemokine murine granulocyte chemotactic protein-2 (GCP-2) were purified from conditioned medium of stimulated fibroblasts. The truncations generated 28 natural murine GCP-2 isoforms containing 69-92 residues, including most intermediate forms. Both NH2- and COOH-terminal truncations of GCP-2 resulted in enhanced chemotactic potency for human and murine neutrophils in vitro. The truncated isoform GCP-2(9-78) was 30-fold more potent than intact GCP-2(1-92)/LPS-induced CXC chemokine (LIX) at inducing an intracellular calcium increase in human neutrophils. After intradermal injection in mice, GCP-2(9-78) was also more effective than GCP-2(1-92)/LIX at inducing neutrophil infiltration. Similar to human IL-8 and GCP-2, murine GCP-2(9-78) and macrophage inflammatory protein-2 (MIP-2) induced calcium increases in both CXCR1 and CXCR2 transfectants. Murine GCP-2(9-78) could desensitize the calcium response induced by MIP-2 in human neutrophils and vice versa. Furthermore, MIP-2 and truncated GCP-2(9-78), but not intact GCP-2(1-92)/LIX, partially desensitized the calcium response to human IL-8 in human neutrophils. Taken together, these findings point to an important role of post-translationally modified GCP-2 to replace IL-8 in the mouse.

Enhanced autoimmune arthritis in IFN-gamma receptor-deficient mice is conditioned by mycobacteria in Freund's adjuvant and by increased expansion of Mac-1+ myeloid cells

Induction of experimental autoimmune diseases often relies on immunization with the organ-specific autoantigens in CFA, which contains heat-killed mycobacteria. In several of these models, including collagen-induced arthritis, endogenous IFN-gamma acts as a disease-limiting factor in the pathogenesis of the disease. Here we show that in collagen-induced arthritis the protective effect of IFN-gamma depends on the presence of mycobacteria in the adjuvant. Omission of mycobacteria inverts the role of endogenous IFN-gamma to a disease-promoting factor. Thus, the mycobacterial component of CFA opens a pathway by which endogenous IFN-gamma exerts a protective effect that supersedes its otherwise disease-promoting effect. Extramedullary hemopoiesis and expansion of the Mac-1+ cell population accompanied the accelerated and more severe disease course in the IFN-gamma receptor knockout mice immunized with CFA. Treatment of such mice with Abs against the myelopoietic cytokines IL-6 or IL-12 inhibited both disease development and the expansion of the Mac-1+ population. We postulate that mycobacteria in CFA stimulate the expansion of the Mac-1+ cell population by a hemopoietic process that is restrained by endogenous IFN-gamma. These results have important implications for the validity of animal models of autoimmunity to study the pathogenesis and to evaluate cytokine-based therapy of autoimmune diseases.

Role of endogenous interleukin-12 (IL-12) in induced and spontaneous relapses of experimental autoimmune encephalomyelitis in mice

Actively induced, chronic relapsing experimental autoimmune encephalomyelitis (CREAE) was studied in SJL/J and in Biozzi ABH mice. In Biozzi ABH mice, relapses occurred spontaneously with high frequency. In SJL/J mice, spontaneous relapses occurred infrequently; however they could be induced reproducibly by reimmunization. In both models, moderately increased levels of serum IL-12(p40) were consistently found shortly before primary attacks, but irregularly at later times. Injections of anti-IL-12 antibody inhibited disease development in both SJL/J and in Biozzi ABH mice. The time window during which treatment needed to be initiated in order to be effective, ranged from before induction until shortly before the symptoms of primary attacks emerged. Such treatment inhibited not only the first attack but also the spontaneous or induced relapses. Most significantly, anti-IL-12 antibody given during remission of primary disease inhibited actively re-induced relapses in SJL/J, but not spontaneous relapses in Biozzi ABH mice. These results indicate that endogenous IL-12 favours EAE development by crucially affecting the active induction process, but that a second burst of IL-12 production may not be necessary for triggering spontaneous relapses.

Vaccination of mice with a combination of BCG and killed Leishmania promastigotes reduces acute Trypanosoma cruzi infection by promoting an IFN-gamma response

The combination of BCG with killed Leishmania promastigotes, demonstrated to be efficient in the cure of patients suffering American cutaneous leishmaniasis and in the induction of a long-term immune response in healthy vaccinated volunteers, was tested in BALB/c mice infected with Trypanosoma cruzi, in comparison to BCG or Leishmania alone, and a vehicle (PBS) control. BCG-Leishmania vaccination, applied intra-peritoneally 10 and 3 days before T. cruzi trypomastigote inoculation, prolonged the survival, and reduced blood parasitaemia of infected animals. Proliferation studies indicated that splenocytes of mice vaccinated with BCG-Leishmania and harvested in the acute phase of T. cruzi infection displayed stimulation indices higher than cells from PBS-treated mice when stimulated with PHA mitogen, PPD, Leishmania or T. cruzi antigens. Injections of a monoclonal antibody able to neutralise IFN-gamma into BCG-Leishmania vaccinated mice increased parasitaemia to levels similar to those of control animals (treated with PBS) and reversed the beneficial effect of vaccination on the proliferative response to T. cruzi antigen. These results show that vaccination of mice with BCG plus killed Leishmania promastigotes delayed acute T. cruzi infection, stimulated a T-cell response to T. cruzi antigen and promoted IFN-gamma production.

Differential nitric oxide and TNF-alpha production of murine Kupffer cell subfractions upon priming with IFN-gamma and TNF-alpha

AIMS/BACKGROUND

We have previously shown a striking heterogeneity of naive murine Kupffer cells (KC) that depends on cell size.

METHODS

In the present study, we demonstrate a shift in response of KC fractions separated on cell size by countercurrent elutriation upon priming with tumor necrosis factor-alpha (TNF-alpha) or interferon-gamma (IFN-gamma).

RESULTS

Whereas unprimed large KC are most active in the production of TNF-alpha and nitric oxide (NO), after priming of KC with TNF-alpha predominantly small and intermediate sized KC produce TNF-alpha in response to bacteria. Priming with IFN-gamma enhanced NO production in all KC. A strong synergy, with respect to production of NO, was observed when KC subfractions were exposed to a combination of TNF-alpha and IFN-gamma. Concerning TNF-alpha production, priming of KC subfractions seemed to induce a shift of activity from large KC to smaller KC.

CONCLUSIONS

The present data demonstrate a clear heterogeneity among murine KC with respect to immunologic response to stimuli. These results demonstrate that KC have different functions in immunologic reactions that seem to be related to size.

Anti-IL-12 antibody prevents the development and progression of collagen-induced arthritis in IFN-gamma receptor-deficient mice

In several models of inflammation, including collagen-induced arthritis (CIA), the disease-promoting effect of IL-12 has been attributed to its well-known ability to produce IFN-gamma. However, IFN-gamma receptor knockout (IFN-gammaR KO) mice of the DBA/1 strain have been reported to be more susceptible to CIA than corresponding wild-type mice, indicating the existence of an IFN-gamma-mediated protective pathway in this model. In the present study the development of CIA was found to be completely prevented by pretreatment with a neutralizing anti-IL-12 antibody, not only in wild-type, but significantly also in IFN-gammaR KO mice. In both strains of mice, the protective effect of anti-IL-12 was associated with lower production of anti-collagen type II antibodies. In vivo stimulation with anti-CD3 antibody in arthritic IFN-gammaR KO mice resulted in production of higher levels of circulating IFN-gamma, TNF and IL-2 than in corresponding control mice that had not received the arthritis-inducing immunization. This was not the case in arthritis-developing wild-type mice. Furthermore, the protective effect of anti-IL-12 antibody in mutant, but not in wild-type mice, was associated with lower circulating IFN-gamma, TNF and IL-2 and higher IL-4 and IL-5 cytokine levels following an anti-CD3 challenge. The data indicate that IL-12 promotes the development of arthritis independently of its ability to induce or favor production of IFN-gamma. In fact, any IFN-gamma produced in the course of the disease process rather exerts a protective effect. Furthermore, our study suggests that, in the absence of a functional IFN-gamma system, endogenous IL-12 exerts its disease-promoting effect by favoring production of other Th1-associated cytokines (IL-2 and TNF), by inhibiting development of IL-4- and IL-5-producing T cells and by stimulating production of anti-collagen autoantibodies.

Involvement of T cells in enhanced resistance to Klebsiella pneumoniae septicemia in mice treated with liposome-encapsulated muramyl tripeptide phosphatidylethanolamine or gamma interferon

We have previously shown that prophylactic administration of the liposome-encapsulated immunomodulating agents muramyl tripeptide phosphatidylethanolamine (MTPPE) and gamma interferon (IFN-gamma) results in strongly increased survival of mice from a normally lethal septicemia with Klebsiella pneumoniae. It was anticipated that the treatment acts on macrophages and nonspecifically augments host resistance to various infections. In the present study, we provide evidence for a key role for T cells in host defense potentiation by the liposomal immunomodulators toward K. pneumoniae septicemia. It is shown that both CD4 and CD8 cells are important in immunomodulation, most likely due to production of IFN-gamma. Depletion of circulating IFN-gamma resulted in strong reduction of the antimicrobial host defense activation. Administration of interleukin-10 resulted in decreased antimicrobial host defense activation by liposomal immunomodulators. Moreover, administration of liposomal immunomodulators was shown to induce predominantly T-helper type 1 (Th1) cell populations in the spleen. These findings indicate that immunomodulation with liposomal MTPPE and IFN-gamma favors Th1 and NK cell activation.

Phosphorylation of bovine leukemia virus Tax protein is required for in vitro transformation but not for transactivation

The Tax proteins of the oncovirinae viruses are phosphorylated transcriptional activators that exhibit oncogenic potential. The role of phosphorylation in their functional activities remains unknown. As a model for the Human T-cell leukemia virus type I (HTLV-I), Bovine Leukemia Virus (BLV) permits the characterization of viral replication and leukemogenesis in vivo. Here, we show that the BLV Tax protein is phosphorylated on serine residues 106 and 293 both in insect and in mammalian cells. These sites can also be efficiently phosphorylated by the cdc2 and MAP kinases in vitro. Mutation of these residues does not affect the capacity of the Tax protein to function as a transactivator. Indeed, the Tax proteins mutated at one or both serines increase LTR-directed viral transcription at levels similar to those obtained with wild-type Tax in cell culture. Moreover, inhibition of Tax phosphorylation by W7, a calmodulin antagonist, does not alter its transactivation activity. Thus, phosphorylation on serines 106 and 293 is not required for transactivation by Tax. However, simultaneous substitution of both serines into alanine residues destroys the capacity of Tax to cooperate with the Ha-ras oncogene to transform primary rat embryo fibroblasts and induce tumors in nude mice. When the serines were replaced with aspartic acid residues, the oncogenic potential of Tax was maintained indicating that the negative charge rather than the phosphate group itself was required for Tax oncogenicity. Finally, to assess the role of the serine residues in vivo, recombinant viruses which express the Tax mutants were constructed and injected into sheep. It appeared that the mutated proviruses replicate at levels similar to the wild-type virus in vivo. We conclude that Tax phosphorylation is dispensable for transactivation and viral replication in vivo but is required for its oncogenic potential in vitro.

In vitro and in vivo oncogenic potential of bovine leukemia virus G4 protein

In addition to the genes involved in the structure of the viral particle, the bovine leukemia virus (BLV) genome contains a region called X which contains at least four genes. Among them, the tax and rex genes, respectively, are involved in transcriptional and posttranscriptional regulation of viral transcription. Two other genes, R3 and G4, were identified after cloning of the corresponding mRNAs from BLV-infected lymphocytes. Although the function of the two latter genes is still unknown, they appear to have important roles, since deletion of them restricts viral propagation in vivo. In order to assess the oncogenic potential of the R3 and G4 proteins, we first analyzed their ability to immortalize and/or transform primary rat embryo fibroblasts (Refs). In this assay, the G4 but not the R3 protein cooperated with the Ha-ras oncogene to induce tumors in nude mice. It thus appears that G4 exhibited oncogenic potential in vitro. To extend these observations in vivo, the pathology induced by recombinant viruses with mutations in G4 and in R3 and G4 was next evaluated with the sheep animal model. Viral propagation, as measured by semiquantitative PCR, appeared to be reduced when the R3 and G4 genes were deleted. These observations confirm and extend our previous data underlining the biological function of these genes. In addition, we present the results of a clinical survey that involves 39 sheep infected with six different BLV recombinants. Over a period of 40 months, 83% of the sheep infected with a wild-type virus developed leukemias and/or lymphosarcomas. In contrast, none out of 13 sheep infected with viruses with mutations in G4 or in R3 and G4 developed disease. We conclude that in addition to its oncogenic potential in vitro, G4 is required for pathogenesis in vivo. These observations should help us gain insight into the process of leukemogenesis induced by the related human T-cell leukemia virus type 1.

Protective effect of a single interleukin-12 (IL-12) predose against the toxicity of subsequent chronic IL-12 in mice: role of cytokines and glucocorticoids

The mechanisms of interleukin-12 (IL-12) toxicity were studied in mice using a schedule (murine rIL-12, 400 ng/mouse, intraperitoneally [IP] once daily for 5 days) that markedly reduced body weight and food intake. On day 5, IL-12-treated mice had elevated serum and spleen IFN-gamma and tumor necrosis factor (TNF). Serum sTNFR-P75 and corticosterone (CS) were also elevated. IL-12 toxicity was partially prevented by anti-IFN-gamma antibodies or dexamethasone (DEX). A pre-dose of IL-12 (200 ng/mouse on day -14) completely prevented the toxicity of subsequent IL-12. The IL-12 predose also inhibited IL-12-induced IFN-gamma levels, but did not modify IL-12-induced CS, TNF or sTNFR-P75. A protective effect was observed with a predose of lipopolysaccharide (LPS) or murine recombinant (r)IL-10. The protective effect of the IL-12 predose was reduced by coadministration of anti-IFN-gamma, but a predose of murine rIFN-gamma was not protective, suggesting that IFN-gamma is necessary but not sufficient for the protective effect of IL-12. The IL-12 predose specifically protected against IL-12 toxicity and did not modify LPS toxicity. These data indicate that IL-12 can induce tolerance to its own toxicity, probably through a downregulation of IL-12-induced IFN-gamma but independently of endogenous glucocorticoids. IFN-gamma, and possibly IL-10, might be important in this tolerance.

Increased mortality and impaired clonal deletion after staphylococcal enterotoxin B injection in old mice: relation to cytokines and nitric oxide production

In the present study peripheral T cell tolerance and the occurrence of shock were evaluated in young and old mice after injection of Staphylococcal enterotoxin B (SEB). In young mice SEB immunization leads to tolerance based on deletion and anergy of SEB-reactive V beta 8+ T cells. With aging, mice developed resistance to SEB-induced deletion of V beta 8+ T cells as well as a high sensitivity to toxic shock. Compared to young mice, older mice injected with SEB showed increased serum levels of interferon-gamma (IFN-gamma), interleukin-2 (IL-2) and IL-4. These results were confirmed by reverse transcription-polymerase chain reaction (RT-PCR), as splenic mRNA levels taken 2 h after SEB injection showed higher values of IL-2, IL-4, and IFN-gamma in old mice. In contrast, mRNA levels for FasL and tumour necrosis factor-alpha (TNF-alpha) were lower. No difference in IL-10 mRNA was found. Compared to young mice, old mice showed a high, but statistically not significantly different (P = 0.20), production of nitric oxide (NO). Blocking of IFN-gamma with antibodies or reducing IFN-gamma by depletion of natural killer (NK) cells resulted, respectively, in a complete or partial protection against mortality in aged mice. Suppressing the NO production by the NO synthase inhibitor N-nitro-L-arginine methylester (L-NAME) increased the mortality in both young and old mice, and abrogated clonal deletion in the surviving young mice. In conclusion, in young mice NO production is a key factor in the protection against mortality and the development of clonal deletion after SEB injection. The higher mortality seen in older mice is mainly related to the elevated production of IFN-gamma and occurs despite a sufficient production of NO. The decreased clonal deletion of old mice may be related to their decreased expression of Fas ligand or TNF-alpha after SEB injection.

Effect of treatments with cyclosporin A and anti-interferon-gamma antibodies on the mechanisms of immune tolerance in staphylococcal enterotoxin B primed mice

The authors were interested to investigate the effect of Cyclosporin A (CsA), known to block interleukin-2 (IL-2) production, or of anti-interferon-gamma antibodies (anti-IFN-gamma Abs) in a model of T cell tolerance induced by the injection of the superantigen Staphylococcal Enterotoxin B (SEB) in BALB/c mice. After SEB immunization, tolerance was mainly achieved through deletion and anergy of SEB-reactive V beta 8+ T cells. Association of CsA treatment with SEB led to a greater decrease of the percentage of V beta 8+ CD4+ lymphocytes in the spleen and an abolition of clonal energy. In contrast, treatment of SEB primed mice with anti-IFN-gamma Abs resulted in an increased percentage of V beta 8+ CD4+ cells without affecting the induction of clonal anergy. The authors found that 1-2 h after SEB priming, splenic mRNA levels of IFN-gamma and IL-4 were decreased by either CsA and anti-IFN-gamma Abs, whereas FasL, Bcl-2, p. 53, and c-myc levels were not influenced by either treatment. However, SEB-induced IL-2 and IL-10 mRNA expression was suppressed only by CsA, whereas tumour necrosis factor-alpha (TNF-alpha) was decreased only by anti-IFN-gamma Abs. To investigate whether the effect of CsA on the tolerance mechanisms was related to suppression of IL-2, CsA was administered together with recombinant IL-2. Whereas anergy was not influenced, the decreased percentage of V beta 8+ CD4+ cells seen in CsA-treated animals in the second week after SEB injection was partially corrected by the administration of IL-2. Experiments involving bromodeoxiuridine incorporation revealed that the latter effect of IL-2 was mainly due to a correction of the defective proliferation of V beta 8+ T cells after SEB injection in CsA-treated mice. These results suggest that the effect of CsA and anti-IFN-gamma Abs on tolerance mechanisms are in part explained by their action on cytokines.

Accelerated collagen-induced arthritis in IFN-gamma receptor-deficient mice

Collagen-induced arthritis (CIA) is a model for rheumatoid arthritis. Here, we describe experiments showing that IFN-gamma receptor knockout (IFN-gammaR alpha KO) mice of the DBA/1 strain develop CIA more readily than their wild-type counterparts. Symptoms of disease started 10 days earlier and the cumulative incidence of arthritis was significantly higher in the mutant mice than in wild-type mice. Similarly, accelerated onset of the disease was also found in wild-type DBA/1 mice treated with neutralizing mAbs against IFN-gamma. Histologic examination of the joints revealed a massive infiltration of the synovium with mononuclear cells and neutrophils, hyperplasia, and severe pannus formation in IFN-gammaR alpha KO mice when such inflammatory lesions were not yet detectable in wild-type mice. Serum levels of anti-collagen type II Abs, including total IgG and IgM, as well as IgG1, IgG2a, and IgG2b isotypes were found to be lower in the mutant mice. IL-2 and IL-4 remained undetectable in sera of both groups of mice, but did appear in the circulation after anti-CD3 Ab challenge. Significantly higher IL-2 and lower IL-4 serum levels were found in anti-CD3-challenged IFN-gammaR alpha KO mice than in wild-type counterparts, both at an early and at a later stage of the disease. These observations indicate that endogenous IFN-gamma counteracts development of collagen-induced arthritis and suggest that IFN-gamma does so by up-regulating IL-4 production and/or down-regulating IL-2 production. The data are in line with the concept of a pathogenic role of Th1-type cellular immunity in CIA in spite of a decreased Ab response to collagen type II.

Accelerated collagen-induced arthritis in IFN-gamma receptor-deficient mice

Collagen-induced arthritis (CIA) is a model for rheumatoid arthritis. Here, we describe experiments showing that IFN-gamma receptor knockout (IFN-gammaR alpha KO) mice of the DBA/1 strain develop CIA more readily than their wild-type counterparts. Symptoms of disease started 10 days earlier and the cumulative incidence of arthritis was significantly higher in the mutant mice than in wild-type mice. Similarly, accelerated onset of the disease was also found in wild-type DBA/1 mice treated with neutralizing mAbs against IFN-gamma. Histologic examination of the joints revealed a massive infiltration of the synovium with mononuclear cells and neutrophils, hyperplasia, and severe pannus formation in IFN-gammaR alpha KO mice when such inflammatory lesions were not yet detectable in wild-type mice. Serum levels of anti-collagen type II Abs, including total IgG and IgM, as well as IgG1, IgG2a, and IgG2b isotypes were found to be lower in the mutant mice. IL-2 and IL-4 remained undetectable in sera of both groups of mice, but did appear in the circulation after anti-CD3 Ab challenge. Significantly higher IL-2 and lower IL-4 serum levels were found in anti-CD3-challenged IFN-gammaR alpha KO mice than in wild-type counterparts, both at an early and at a later stage of the disease. These observations indicate that endogenous IFN-gamma counteracts development of collagen-induced arthritis and suggest that IFN-gamma does so by up-regulating IL-4 production and/or down-regulating IL-2 production. The data are in line with the concept of a pathogenic role of Th1-type cellular immunity in CIA in spite of a decreased Ab response to collagen type II.

Chronic relapsing experimental autoimmune encephalomyelitis (CREAE) in mice: enhancement by monoclonal antibodies against interferon-gamma

Experimental autoimmune encephalomyelitis (EAE) is a T cell-mediated inflammatory and demyelinating disorder of the central nervous system. Depending on the experimental conditions, it takes an acute monophasic or a chronic relapsing-remitting course. We have previously reported that the incidence and severity of acute EAE in mice are reduced by administration of interferon (IFN)-gamma and augmented by treatment with neutralizing antibodies against IFN-gamma. Here, we investigated the role of IFN-gamma in chronic relapsing models of EAE (CREAE) in SJL/J and Biozzi ABH mice. Spontaneous relapses in Biozzi mice as well as induced relapses in SJL/J mice were facilitated by administration of neutralizing monoclonal antibody (mAb) against IFN-gamma in the disease-free interval. The enhancing effect of anti-IFN-gamma mAb given before and during the primary attack did not carry over to the relapses. However, early administration of IFN-gamma in Biozzi mice, which developed spontaneous relapses in a high proportion, provided partial protection not only against the first attack, but also against subsequent relapses. Administration of exogenous IFN-gamma during the remission phase provided some protection against subsequent relapses. These results indicate that in both types of relapses, IFN-gamma is produced and does provide a certain degree of protection against disease progression.

Production of tumor necrosis factor in spinal cord following traumatic injury in rats

Production of tumor necrosis factor (TNF) in the spinal cord following traumatic injury has been studied. In these experiments, the level of TNF was examined in the homogenate of the spinal cord, cerebrospinal fluid (CSF) and serum (n = 56). TNF could be detected in the injured spinal cord but not in the normal spinal cord. The TNF level increased in the spinal cord after the injury. At the lesion site, a maximal TNF concentration was observed 1 h after the injury, and the TNF concentration remained at this level until 8 h after the injury. Thereafter, it decreased gradually. However, TNF still could be detected 72 h after the injury. No TNF could be detected in the CSF and serum, collected from rats both with and without spinal cord injury (SCI). This study thus suggests that TNF is produced locally in the spinal cord following traumatic injury, and this TNF production is caused by the injury. The present results also demonstrate that TNF production is an acute and rapid reaction in the spinal cord following traumatic injury.

In vitro simulation of immunosuppression caused by Trypanosoma brucei: active involvement of gamma interferon and tumor necrosis factor in the pathway of suppression

Experimental infections of mice with the African trypanosome Trypanosoma brucei lead to a profound state of T-cell unresponsiveness in the lymph node cell (LNC) compartment. This suppression is mediated by macrophage-like cells which inhibit interleukin 2 (IL-2) secretion and down-regulate IL-2 receptor expression (M. Sileghem, A. Darji, R. Hamers, M. Van de Winkel, and P. De Baetselier, Eur. J. Immunol. 19:829-835, 1989). Similar suppressive cells can be generated in vitro by pulsing 2C11-12 macrophage hybridoma cells with opsonized T. brucei parasites (2C11-12P cells). Cocultures of 2C11-12P cells and LNCs secrete higher levels of gamma interferon (IFN-gamma), and the hyperproduction of IFN-gamma was found to be confined to CD8+ lymphoid cells. Elimination of CD8+ cells from cocultures of 2C11-12P cells and LNCs restores the T-cell proliferative response. Furthermore, addition of neutralizing anti-IFN-gamma antibodies to the cocultures reduces the level of suppression and concomitantly restores the level of IL-2 receptor expression. Hence, IFN-gamma plays a cardinal role in this in vitro model for T. brucei-elicited immunosuppression. Cocultures of LNCs and 2C11-12P cells in a two-chamber culture system further demonstrated that cell-cell contact is required for hyperproduction of IFN-gamma and, moreover, that IFN-gamma cooperates with a 2C11-12P-derived diffusible factor to exert its suppressive activity. Finally, tumor necrosis factor alpha (TNF-alpha produced by 2C11-12P cells was found to be implicated in the hyperproduction of IFN-gamma, since addition of neutralizing anti-TNF-alpha antibodies to cocultures reduced the level of suppression and concomitantly abrogated the hyperproduction of IFN-gamma. Collectively, our findings indicate that T. brucei-elicited suppressive 2C11-12 macrophage cells differentially influence T-cell subpopulations: (i) CD8+ cells are signaled via cell-cell contact to produce IFN-gamma, and TNF-alpha is implicated in this process, and (ii) locally produced IFN-gamma and macrophage-released factors act in concert to inhibit CD4+ and CD8+ T-cell proliferative responses.

Enhancement of nonspecific resistance by liposome-encapsulated immunomodulators does not affect skin graft rejection in mice

Administration of liposome-encapsulated immunomodulating agents muramyl tripeptide phosphatidyl ethanolamine (LE-MTPPE) or interferon-gamma (LE-IFN-gamma), or co-encapsulated MTPPE and IFN-gamma (LE-(MTPPE/IFN-gamma)) resulted in a dramatic increase of the nonspecific antimicrobial resistance in mice, as shown before. This kind of treatment is especially of use in immunocompromised hosts who are prone to severe infections. Application of these immunomodulators might protect these patients, e.g., transplant recipients, from opportunistic infections. However, accelerated rejection of the graft, resulting from augmentation of the antimicrobial defense in a nonspecific way, has to be avoided. In this study, the effect of treatment with LE-MT-PPE, LE-IFN-gamma, or LE-(MTPPE/IFN-gamma) on skin graft rejection in mice was investigated. It was found that prophylactic treatment of skin-grafted mice with immunomodulating formulations did not influence rejection of the graft. Moreover, in T cell-depleted mice, which showed a prolonged graft survival compared with immunocompetent recipients, the administration of immunomodulators did not change the survival time of the grafts compared with T cell-depleted mice that did not receive immunomodulators. The results clearly show that, in this experimental setting, application of the antimicrobial resistance-enhancing formulations (LE-MTPPE, LE-IFN-gamma, and LE-(MTPPE/IFN-gamma)) is allowed in graft-bearing recipients, without influencing graft survival.

Prevention of acute autoimmune encephalomyelitis and abrogation of relapses in murine models of multiple sclerosis by the protease inhibitor D-penicillamine

The in vitro activity of gelatinase B, an enzyme whose appearance in the cerebrospinal fluid is associated with inflammatory diseases of the central nervous system, was dose-dependently inhibited by the antirheumatic D-penicillamine. Inhibition of gelatinase B in electrophoretically pure preparations and in cell culture supernatants and human body fluids was obtained at dosages reached in the circulation of patients treated with a peroral dosis of 750 mg D-penicillamine per day. In mice, developing acute demyelination, D-penicillamine significantly reduced the mortality and morbidity rates of experimental allergic encephalomyelitis (EAE). In chronic relapsing EAE in Biozzi AB/H mice, an animal model for relapses in multiple sclerosis (MS), it attenuated the exacerbations, even when the treatment was started after the primary full-blown disease had developed. We infer protease inhibition as the mechanism of action of D-penicillamine and suggest that its use may be effective as peroral treatment for MS.

The cachexia associated with Trypanosoma cruzi acute infection in mice is attenuated by anti-TNF-alpha, but not by anti-IL-6 or anti-IFN-gamma antibodies

BALB/c male mice acutely infected with Trypanosoma cruzi underwent a severe weight loss (around 20%, from day 18 to 31 post-infection), when compared to age-matched uninfected animals. Though mice regained weight later, when blood parasites were hardly detectable, wasting extended over the chronic phase of infection. The onset and the magnitude of weight loss were related to the mouse susceptibility to infection, since they were respectively earlier and higher in male mice which will die than in surviving ones, in males than in females, and in BALB/c than in B6D2 [(C57B1/6 x DBA/2)F1], a mouse strain more resistant to infection. Fat weight of infected mice (male BALB/c) was reduced by 60 to 80%, whereas lean mass was unaffected and water content rose by 6 to 10% in acute and chronic infection. Haematocrit was also decreased by 15-16% in acute infection. Animals failed to compensate their energetic loss since their food intake remained similar to that of uninfected animals. Injections of neutralizing anti-TNF-alpha monoclonal antibody into infected male mice, during the first two weeks but not later in infection, significantly attenuated the weight loss. Early administration of anti-IL-6 or anti-IFN-gamma MoAbs did not improve the mouse wasting. Taken together, these data show that TNF is a key agent of cachexia occurring in the acute T. cruzi infection in mice.

Differential role of interferon-gamma in the potentiating effect of muramyl peptides for enhanced responses to lipopolysaccharide in mice: effect of cyclosporin A

Cyclosporin A (CsA) administration reduced mortality in mice sensitized to endotoxic toxicity by various agents, such as muramyl dipeptide (MDP) or a lipophilic derivative. CsA is an inhibitor of a variety of T cell responses, suggesting that muramyl peptides could influence LPS-induced effects via the release of lymphokine. The potentiation of TNF production by pretreatment with muramyl peptides was comparable in nude mice and in controls, indicating that it is a T-independent mechanism, and CsA produced a similar inhibition in both groups. Neutralizing antibody to IFN-gamma did not change the elevated TNF level obtained in the blood when LPS was given after a muramyl peptide. However, the same treatment with anti-IFN-gamma MAb prevented the death of mice challenged with LPS plus MDP or plus a lipophilic derivative displaying similar effects. In comparing three selected muramyl peptides, we also show that the priming effect could be dissociated from the toxic synergism with LPS.

Anti-gamma interferon and anti-interleukin-6 antibodies affect staphylococcal enterotoxin B-induced weight loss, hypoglycemia, and cytokine release in D-galactosamine-sensitized and unsensitized mice

Administration of staphylococcal enterotoxin B (SEB) to BALB/c mice was found to induce a cytokine release syndrome hallmarked by weight loss and hypoglycemia. A neutralizing monoclonal antibody against gamma interferon (IFN-gamma) given before SEB counteracted weight loss and prevented hypoglycemia. This protective effect of anti-IFN-gamma antibody was associated with decreased IFN-gamma levels in serum; tumor necrosis factor (TNF) and interleukin-6 (IL-6) levels remained unchanged. A monoclonal anti-IL-6 antibody, known for its ability to cause accumulation of biologically active IL-6 in the circulation, did not modify SEB-induced body weight loss or hypoglycemia. Levels of TNF, IFN-gamma, and IL-6 in serum were all more elevated in anti-IL-6-treated mice than in corresponding SEB-challenged control mice. In D-galactosamine-sensitized mice, SEB-induced weight loss but not hypoglycemia was more severe, resulting mostly in death within 24 h. Higher levels of biologically active TNF and IFN-gamma in serum were noted in these mice than in mice receiving SEB only. In D-galactosamine-sensitized mice, anti-IFN-gamma antibody did prevent hypoglycemia but failed to reduce the severity of the syndrome. Again, TNF levels in anti-IFN-gamma-treated mice remained unchanged. Pretreatment with anti-IL-6 antibody temporarily attenuated SEB-induced hypoglycemia in sensitized mice. Thus, at 6 h post-SEB injection, anti-IL-6-treated mice were less hypoglycemic than corresponding controls. However, at 24 h, hypoglycemia was significantly aggravated. Concomitantly, IL-6 levels were dramatically increased. Neither anti-IFN-gamma nor anti-IL-6 antibody treatment modulated mortality levels in D-galactosamine-sensitized mice. The data obtained with anti-IFN-gamma antibody clearly indicate that endogenous IFN-gamma is instrumental in bringing about hypoglycemia and body weight loss in mice exposed to SEB but also that hypoglycemia is not a crucial determinant of mortality in D-galactosamine-sensitized mice. The data obtained with anti-IL-6 antibody indicate that endogenous IL-6 is involved in regulating the levels of TNF and IFN-gamma in serum.

Efficient secretion of biologically active mouse tumor necrosis factor alpha by Streptomyces lividans

We have studied the production of mouse tumor necrosis factor alpha (mTNF) with Streptomyces lividans as host. mTNF cDNA was fused to the alpha-amylase-encoding gene (aml) of Streptomyces venezuelae ATCC15068 at 12 amino acids (aa) downstream from the signal-peptidase cleavage site so that the aa surrounding this processing site were conserved. S. lividans containing this construct secreted mTNF at moderately high levels (1-10 micrograms/ml) as a biologically active compound of high specific activity (1 x 10(8) units/mg protein). No unprocessed pre-protein and virtually no processed protein could be detected in the cell lysates. N-terminal aa sequence analysis indicated microheterogeneity (-3 to -6 forms) at the N-terminal site of secreted mTNF. It was demonstrated that this microheterogeneity was due to aminopeptidase activity.

Induction of monocyte chemotactic proteins MCP-1 and MCP-2 in human fibroblasts and leukocytes by cytokines and cytokine inducers. Chemical synthesis of MCP-2 and development of a specific RIA

Monocyte chemotactic proteins (MCP) belong to a group of structurally and functionally related factors, called chemokines. To facilitate additional characterization of the recently identified MCP-2, the 76-residue protein was chemically synthesized. The synthetic 7-kDa monomeric protein was chemotactic for monocytes at 1 nM and was biochemically similar to natural MCP-2. Sensitive radioimmunoassays for both MCP-1 and MCP-2 were developed. These RIAs were specific in that no cross-reactivity could be observed, and other chemokines or cytokines were not detected. Induction of MCP-1 and MCP-2 in human diploid fibroblasts and peripheral blood leukocytes as well as osteosarcoma, epidermal carcinoma, and melanoma cells by the cytokines IL-1 beta, IFN-beta, and IFN-gamma and cytokine inducers such as dsRNA, virus, endotoxin, mitogen, and phorbol ester was studied. In connective tissue cells, IL-1 beta was the best inducer of MCP-1, but IFN-gamma was a superior inducer of MCP-2. Mononuclear cells also proved to be a source of MCP-1 and MCP-2 when stimulated by most of the inducers tested. Granulocytes, however, were inefficient producers. Measles virus induced MCP-1 and MCP-2 in most cell types. In general, the yields of MCP-2 were at least 10-fold lower than those of MCP-1. It is concluded that, although MCP-2 is often coproduced with MCP-1, regulation of expression of the two chemokines is not identical. It remains to be studied under which pathological conditions MCP-2 is released in vivo and whether MCP-1 and MCP-2 can activate different target cells.

Induction of monocyte chemotactic proteins MCP-1 and MCP-2 in human fibroblasts and leukocytes by cytokines and cytokine inducers. Chemical synthesis of MCP-2 and development of a specific RIA

Monocyte chemotactic proteins (MCP) belong to a group of structurally and functionally related factors, called chemokines. To facilitate additional characterization of the recently identified MCP-2, the 76-residue protein was chemically synthesized. The synthetic 7-kDa monomeric protein was chemotactic for monocytes at 1 nM and was biochemically similar to natural MCP-2. Sensitive radioimmunoassays for both MCP-1 and MCP-2 were developed. These RIAs were specific in that no cross-reactivity could be observed, and other chemokines or cytokines were not detected. Induction of MCP-1 and MCP-2 in human diploid fibroblasts and peripheral blood leukocytes as well as osteosarcoma, epidermal carcinoma, and melanoma cells by the cytokines IL-1 beta, IFN-beta, and IFN-gamma and cytokine inducers such as dsRNA, virus, endotoxin, mitogen, and phorbol ester was studied. In connective tissue cells, IL-1 beta was the best inducer of MCP-1, but IFN-gamma was a superior inducer of MCP-2. Mononuclear cells also proved to be a source of MCP-1 and MCP-2 when stimulated by most of the inducers tested. Granulocytes, however, were inefficient producers. Measles virus induced MCP-1 and MCP-2 in most cell types. In general, the yields of MCP-2 were at least 10-fold lower than those of MCP-1. It is concluded that, although MCP-2 is often coproduced with MCP-1, regulation of expression of the two chemokines is not identical. It remains to be studied under which pathological conditions MCP-2 is released in vivo and whether MCP-1 and MCP-2 can activate different target cells.

Essential role for natural killer cells in the lethal lipopolysaccharide-induced Shwartzman-like reaction in mice

Observations in our laboratory have provided evidence that interferon-gamma (IFN-gamma) is a key regulator of inflammatory responses to bacterial lipopolysaccharide (LPS) (Heremans et al., J. Exp. Med. 1990. 171: 1853): treatment of mice with neutralizing monoclonal antibody against IFN-gamma was found to completely prevent lethal shock reactions, in particular the generalized Shwartzman reaction, whereas treatment with IFN-gamma sensitized the mice to the development of such reactions. Since activated T cells and natural killer (NK) cells are the main if not the only potential source of LPS-induced IFN-gamma, we investigated the relative importance of these cells in the development of the generalized Shwartzman-like reaction in mice by depleting them selectively with relevant monoclonal antibodies. Treatment with antibodies directed against the CD4+ T cells subset was not effective in protecting mice. Anti-CD8 antibody did attenuate the reaction to some extent. However, markedly reduced mortality was seen in mice which were depleted of NK cells by systemic administration of polyclonal anti-asialo GM1 or monoclonal anti-NK1.1 antibodies. Failure of T cells to promote the Shwartzman reaction was also evidenced by the observation that thymus-less nude mice, which are deficient in T cells, were more rather than less sensitive to the reaction. Approximately 20 times less LPS was needed to induce the lethal reaction in these mice than in NMRI mice and 58 times more anti-IFN-gamma antibody was required to block mortality. Nu/nu mice reportedly have an over-active NK cell compartiment. IFN-gamma production by these cells in LPS-treated mice may account for the augmented sensitivity. Our data suggest that NK cells may be the most important source of endogenous IFN-gamma which mediates the LPS-induced lethal reactions in mice.

Role of xanthine oxidase and reactive oxygen intermediates in LPS- and TNF-induced pulmonary edema

We studied the role of reactive oxygen intermediates (ROI) in lipopolysaccharide (LPS)-induced pulmonary edema. LPS treatment (600 micrograms/mouse, IP) was associated with a marked induction of the superoxide-generating enzyme xanthine oxidase (XO) in serum and lung. Pretreatment with the antioxidant N-acetylcysteine (NAC)--1 gm/kg orally, 45 minutes before LPS--or with the XO inhibitor allopurinol (AP)--50 mg/kg orally at -1 hour and +3 hours--was protective. On the other hand nonsteroidal antiinflammatory drugs (ibuprofen, indomethacin, and nordihydroguaiaretic acid) were ineffective. These data suggested that XO might be involved in the induction of pulmonary damage by LPS. However, treatment with the interferon inducer polyriboinosylic-polyribocytidylic acid, although inducing XO to the same extent as LPS, did not cause any pulmonary edema, indicating that XO is not sufficient for this toxicity of LPS. To define the possible role of cytokines, we studied the effect of direct administration of LPS (600 micrograms/mouse, IP), tumor necrosis factor (TNF, 2.5 or 50 micrograms/mouse, IV), interleukin-1 (IL-1 beta, 2.5 micrograms/mouse, IV), interferon-gamma (IFN-gamma, 2.5 micrograms/mouse, IV), or their combination at 2.5 micrograms each. In addition to LPS, only TNF at the highest dose induced pulmonary edema 24 hours later. LPS-induced pulmonary edema was partially inhibited by anti-IFN-gamma antibodies but not by anti-TNF antibodies, anti-IL-1 beta antibodies, or IL-1 receptor antagonist (IL-1Ra).

Interleukin-6 (IL-6) production in mice infected with Trypanosoma cruzi: effect of its paradoxical increase by anti-IL-6 monoclonal antibody treatment on infection and acute-phase and humoral immune responses

Trypanosoma cruzi infection of mice triggered endogenous production of interleukin-6 (IL-6) during the ascending phase of parasitemia. Injections of anti-IL-6 monoclonal antibody in infected mice at the time of the serum IL-6 peak paradoxically increased IL-6 levels to 60- to 80-fold those in infected mice receiving unrelated immunoglobulins. This early and transient increase in circulating IL-6 levels modified neither the immunoglobulin nor T. cruzi-specific antibody levels of immunoglobulin G1 (IgG1), IgG2a, IgG3, IgM, IgA, and IgE isotypes or the final outcome of infection nor the blood or tissular parasite levels. However, it tended to delay mortality of mice and to increase the levels of the acute-phase protein serum amyloid P component.

Endogenous systemic IFN-gamma has a protective role against ocular autoimmunity in mice

Locally produced IFN-gamma has been implicated in enhancing inflammation and in promoting organ-specific autoimmunity. In the present study, we investigated the influence of systemically available IFN-gamma on the expression of experimental autoimmune uveoretinitis (EAU) induced in mice with the retinal Ag, interphotoreceptor retinoid binding protein (IRBP). EAU-susceptible B10.A mice treated with a mAb to IFN-gamma developed much more severe EAU than did the controls and had increased delayed hypersensitivity (DH) responses to IRBP. There was an increase in the proportion of macrophage/monocytes vs lymphocytes in the ocular lesions of treated animals. The anti-IFN-gamma treatment did not prevent expression of MHC class II within the ocular tissues. Conversely, treatment with rIFN-gamma ameliorated EAU expression and lowered DH responses. This occurred despite widespread induction of MHC class II Ag in the ocular tissues and other organs. In contrast to EAU and DH, serum antibody titers and lymphocyte proliferation to IRBP were not significantly affected by either treatment. Experiments in several genetically resistant strains of mice showed that treatment with anti-IFN-gamma was able to up-regulate disease expression also in some EAU-resistant strains. In the case of one such strain, resistance to EAU induction was completely abrogated by the treatment. We conclude that endogenously produced IFN-gamma at the systemic level acts to down-regulate EAU in the mouse and that IFN-gamma-related mechanisms may be involved in conferring resistance to EAU in some mouse genotypes.

Endogenous systemic IFN-gamma has a protective role against ocular autoimmunity in mice

Locally produced IFN-gamma has been implicated in enhancing inflammation and in promoting organ-specific autoimmunity. In the present study, we investigated the influence of systemically available IFN-gamma on the expression of experimental autoimmune uveoretinitis (EAU) induced in mice with the retinal Ag, interphotoreceptor retinoid binding protein (IRBP). EAU-susceptible B10.A mice treated with a mAb to IFN-gamma developed much more severe EAU than did the controls and had increased delayed hypersensitivity (DH) responses to IRBP. There was an increase in the proportion of macrophage/monocytes vs lymphocytes in the ocular lesions of treated animals. The anti-IFN-gamma treatment did not prevent expression of MHC class II within the ocular tissues. Conversely, treatment with rIFN-gamma ameliorated EAU expression and lowered DH responses. This occurred despite widespread induction of MHC class II Ag in the ocular tissues and other organs. In contrast to EAU and DH, serum antibody titers and lymphocyte proliferation to IRBP were not significantly affected by either treatment. Experiments in several genetically resistant strains of mice showed that treatment with anti-IFN-gamma was able to up-regulate disease expression also in some EAU-resistant strains. In the case of one such strain, resistance to EAU induction was completely abrogated by the treatment. We conclude that endogenously produced IFN-gamma at the systemic level acts to down-regulate EAU in the mouse and that IFN-gamma-related mechanisms may be involved in conferring resistance to EAU in some mouse genotypes.

Modification of the anti-CD3-induced cytokine release syndrome by anti-interferon-gamma or anti-interleukin-6 antibody treatment: protective effects and biphasic changes in blood cytokine levels

Anti-interferon-gamma (IFN-gamma) antibodies were found to protect mice against pathological changes induced by injection of anti-CD3 antibody: incidence of diarrhea, severity of hypothermia and mortality rates were dramatically reduced. In anti-IFN-gamma antibody-treated mice, IFN-gamma blood levels were significantly reduced at 1.5 h post anti-CD3 challenge, but more elevated levels were found from 4 to 24 h. This rebound-like IFN-gamma response coincided with more profound hypoglycemia. Tumor necrosis factor and interleukin (IL)-6 levels were not affected by anti-IFN-gamma treatment. Exogenous IFN-gamma, administered within 3 h (but not later) of the anti-CD3 challenge made the syndrome worse. Furthermore, inter-mouse strain differences in sensitivity to the anti-CD3 syndrome correlated with the ability of the strain to produce IFN-gamma. Anti-IL-6 antibodies provided only marginal protection against hypothermia and mortality, but did markedly reduce hypoglycemia. Levels of biologically active IL-6 in serum were not influenced by anti-IL-6 antibody treatment during the first few hours after anti-CD3 challenge, but were significantly increased at later times. The data provide evidence that endogenous IFN-gamma is a critical element in the early phase of the anti-CD3 syndrome; endogenous IL-6, while possibly being involved in hypoglycemia, seems of lesser importance for the outcome of the syndrome.

Increased circulating interleukin-6 (IL-6) activity in endotoxin-challenged mice pretreated with anti-IL-6 antibody is due to IL-6 accumulated in antigen-antibody complexes

Mice pretreated with monoclonal anti-interleukin-6 (IL-6) antibody and then challenged with lipopolysaccharide (LPS), paradoxically develop higher levels of circulating biological IL-6 activity, as measured by the hybridoma growth promotion assay, than mice similarly challenged but not pretreated with antibody. Here we provide evidence that this increased biological activity was entirely accounted for by the presence of increased amounts of IL-6 protein, which could be isolated by immunoaffinity chromatography and subsequently visualized after gel electrophoresis. Chromatography on a protein G matrix and a sandwich ELISA allowed to demonstrate that all IL-6 present in the serum was in the form of antigen-antibody complexes. Serum samples of antibody-treated animals which contained the highest biological activity typically contained near equimolar concentrations of IL-6 and antibody. In vitro neutralization tests with pure antibody and IL-6 demonstrated that, with both antibodies tested, more than 1000-fold molar excess of antibody is needed for neutralization in the hybridoma growth assay. It is concluded that increased biological activity in serum of the anti-IL-6 antibody-treated mice is due to sequestration of the endogenous IL-6 in the form of antigen-antibody complexes which, due to the lack of sufficient antibody excess, produce nearly full activity in the hybridoma growth assay.

Inhibition of T-cell responsiveness during experimental infections with Trypanosoma brucei: active involvement of endogenous gamma interferon

Lymph node cells (LNC) from mice infected with Trypanosoma brucei contain macrophage-like cells that inhibit interleukin-2 receptor (IL-2R) expression (M. Sileghem, A. Darji, R. Hamers, M. Van De Winkel, and P. De Baetselier, Eur. J. Immunol. 19:829-835, 1989). Evidence that gamma interferon (IFN-gamma) is actively involved in (i) the inhibition of IL-2R expression and (ii) the generation of suppressive cells during infections with T. brucei is presented. First, despite an impaired T-cell mitogenic response, LNC from infected mice are hyperresponsive for IFN-gamma production. Second, addition of neutralizing anti-IFN-gamma antibodies to cocultures of normal LNC and suppressive LNC populations reduces the level of suppression and restores the level of IL-2R expression. Third, administration of anti-IFN-gamma to T. brucei-infected animals increases the blastogenic response and reduces the suppressive activity of LNC.

Immunocytochemical evidence that S-100-positive cells of the mouse anterior pituitary contain interleukin-6 immunoreactivity

We have previously shown that bioactive interleukin-6 (IL-6) is produced by rat and mouse (anterior) pituitary cells in vitro. Since the amount produced correlated with the presence of S-100-containing folliculostellate (FS) cells, these cells were suggested to be a source of IL-6 in the anterior pituitary (AP) lobe. In the present study we used immunocytochemical techniques to confirm this presumption. Freshly isolated mouse pituitary cells were subjected to immunocytochemical procedures whereby two different (neutralizing) monoclonal antibodies (MAb) against mouse IL-6 (6B4 and 20F3) and a polyclonal antiserum raised against bovine S-100 were used as primary antibodies. Single immunostaining revealed a small portion of mouse pituitary cells (about 6.5%) to be positive for IL-6 immunoreactivity with both antibodies. Importantly, the same proportion of cells was found to be IL-6 positive if only the AP was used as the cell source. About 7.5% of the pituitary cells stained for the presence of S-100 immunoreactivity. Positive staining for IL-6 was also found in pituitary cell samples from 2-day-old monolayer cultures and from redispersed 9-day-old histotypic aggregates, which both secreted bioassayable IL-6. In contrast, no IL-6 staining was found in AtT-20 cells, an established ACTH-secreting tumor cell line of the mouse pituitary which did not secrete bioactive IL-6. The specificity of the IL-6 immunostaining was demonstrated by a total loss of staining when MAb 6B4 was omitted or replaced by irrelevant rat IgG. Conclusively, pre-adsorption of the anti-IL-6 MAb (6B4) with recombinant mouse IL-6 totally abolished staining of pituitary cells. Double immunostaining for IL-6 and S-100 revealed that most if not all of the IL-6-containing pituitary cells were positive for S-100. Few of the S-100-containing cells did not stain for IL-6. These results confirm our previous hypothesis that FS cells, characterized by immunostaining of S-100 protein, contain bioactive and immunoreactive IL-6 and therefore are very likely producers of IL-6 in the AP. Furthermore, our results suggest that IL-6 is implicated in the local regulatory role ascribed to FS cells in the pituitary gland.

Protective effect of anti-interleukin (IL)-6 antibody against endotoxin, associated with paradoxically increased IL-6 levels

Two rat monoclonal antibodies (6B4 and 20F3) against mouse interleukin (IL)-6 were studied for their effects on the generalized Shwartzman reaction and on cytokine production elicited by endotoxin injections. Both antibodies were found to protect mice against the generalized Shwartzman reaction. Production of interferon and tumor necrosis factor in these animals, as assessed from serum levels, were not consistently affected by the antibody treatment, although rather increased levels were occasionally noted. Paradoxically, however, endotoxin-induced serum levels of IL-6 in anti-IL-6-treated mice were consistently found to be markedly increased and also to persist for longer time periods. The more vigorous and persistent response may have been due to slower elimination, increased synthesis, or a combination of both. Endogenous production of IL-6 in mice may be sufficiently large to supersede the neutralizing potential of an excess of antibody, as was evident from the fact that ascites fluid of the anti-IL-6-producing 6B4 hybridoma was biologically active in the IL-6 assay.

Mutations in the bovine leukemia virus Tax protein can abrogate the long terminal repeat-directed transactivating activity without concomitant loss of transforming potential

The bovine leukemia virus Tax protein transactivates gene expression directed by the viral long terminal repeat (LTR) and contributes to immortalization of primary cells. Theoretical analysis of the protein sequence revealed the presence of a putative zinc finger structure at its amino end. Selected mutations in that region completely abolished transactivation, demonstrating its importance for LTR-directed gene regulation. However, these mutations did not interfere with the ability of tax to bind zinc or to contribute to immortalization of primary cells. Thus, transactivation of bovine leukemia virus LTR and target cell transformation are independent functions of Tax and involve different functional domains of the protein.