Inhibition of cytosolic phospholipase A(2) attenuates activation of mitogen-activated protein kinases in human monocytic cells.

Eicosanoids and platelet-activating factor generated upon activation of cytosolic phospholipase A(2) enhance activity of transcription factors and synthesis of proinflammatory cytokines. Here, we show that selective inhibitors and antisense oligonucleotides against this enzyme suppressed expression of the interleukin-1beta gene at the level of transcription and promoter activation in human monocytic cell lines. This inhibitory effect was due to failure of activation of mitogen-activated protein kinases (MAPK) through phosphorylation by upstream mitogen-activated protein kinase kinases (MKK). Consequently, phosphorylation and degradation of inhibitor-kappaBalpha (I-kappaBalpha) and subsequent cytoplasmic mobilization, DNA-binding and the transactivating potential of nuclear factor-kappaB (NF-kB), nuclear factor-interleukin-6 (NF-IL6), activation protein-1 (AP-1) and signal-transducer-and-activator-of-transcription-1 (STAT-1) were impaired. It is concluded, that lipid mediators promote activation of MAPKs, which in turn lead to phosphorylation and liberation of active transcription factors. Since inhibition of cytosolic phospholipase A(2) ameliorates inflammation in vivo, this potency may reside in interference with the MAPK pathway.

Activation of nuclear factor-kappaB by lipopolysaccharide in mononuclear leukocytes is prevented by inhibitors of cytosolic phospholipase A2.

In monocytes, lipopolysaccharide induces synthesis and activity of the 85-kDa cytosolic phospholipase A2. This enzyme releases arachidonic acid and lyso-phospholipids from membranes which are metabolized to eicosanoids and platelet-activating-factor. These lipid mediators increase activity of transcription factors and expression of cytokine genes indicating a function for cytosolic phospholipase A2 in signal transduction and inflammation. We have shown previously that trifluoromethylketone inhibitors of cytosolic phospholipase A2 suppressed interleukin-1beta protein and steady-state mRNA levels in human lipopolysaccharide-stimulated peripheral blood mononuclear leukocytes. In this study, the subcellular mechanisms were analyzed by which trifluoromethylketones interfere with gene expression. We found that they reduced the initial interleukin-1beta mRNA transcription rate through prevention of degradation of inhibitor-kappaB alpha. Consequently, cytosolic activation, nuclear translocation and DNA-binding of nuclear factor-kappaB were decreased. Trifluoromethylketones ameliorate chronic inflammation in vivo. Thus, this therapeutic potency may reside in retention of inactive nuclear factor-kappaB in the cytosol thereby abrogating interleukin-1beta gene transcription.

Suppression of cytokine synthesis, integrin expression and chronic inflammation by inhibitors of cytosolic phospholipase A2.

To define the isoform of phospholipases A2 active in inflammation we evaluated the effects of low-molecular-weight inhibitors of secretory and cytosolic phospholipases A2. We found that inhibitors of cytosolic phospholipase A2 had therapeutic efficacy in an in vivo model of chronic inflammation (rat adjuvant arthritis), whereas inhibitors of secretory phospholipase A2 had no beneficial effect. In vitro, inhibitors of cytosolic phospholipase A2 diminished surface expression of Mac-1 (CD11b/CD18) beta2-integrin on calcium ionophore-stimulated human blood granulocytes and suppressed synthesis of interleukin-1beta in lipopolysaccharide-stimulated human blood monocytes and U937 cells by reducing mRNA levels. Lipid mediators promote Mac-1 exocytosis and transcription of interleukin-1beta, which further enhances cytosolic phospholipase A2 activity and expression. Thus, superinduction of cytosolic phospholipase A2 may establish a positive feedback loop, converting acute inflammation into chronic inflammation. Consequently, inhibitors of cytosolic phospholipase A2 may prevent inflammation in vivo by interfering with cellular activation and infiltration. We conclude that cytosolic phospholipase A2 but not secretory phospholipase A2 is the predominant enzyme in inflammatory signalling.

Modulation of the induction and circumvention of immunological tolerance to human gamma-globulin by interleukin 1.

As with agents capable of causing the release of IL 1, IL 1 itself is capable of modulating certain tolerance-inducing events. Under the condition used in the present study, it previously has been firmly established that injection of A/J mice with DHGG induces a state of antigen-specific tolerance in both T helper (Th) and B cells. The tolerance in the B cell is of long duration, whereas that in the B cell is of shorter duration. Recombinant IL 1 (rIL 1) given shortly after the tolerogen DHGG results in the inhibition of the induction of tolerance resulting in antibody production. The induction of tolerance is inhibited at both its antigen-specific Th cell and B cell levels, although the latter may be caused by the former. The inhibition of the induction of tolerance by rIL 1 is not correlated to the generation of antigen-specific T suppressor cells. IL 1 mimics lipopolysaccharide and 8-bromoguanosine, which generate IL 1 production, in its ability to interfere with the in vivo induction of tolerance. However, in contrast to these latter mitogens which cause both terminal differentiation of B cells and IL 1 production, IL 1 itself does not cause in vivo circumvention of long-term tolerant Th cells in the presence of competent B cells and antigen. These latter findings suggest that a signal(s) in addition to those delivered by IL 1 is required for activation of the B cell compartment recovering from tolerance to antibody production. AHGG (immunogen) is a potent generator of IL 1 release, whereas DHGG has no effect on IL 1 release from macrophages and AHGG inhibits the induction of tolerance by DHGG. These latter results suggest that the lack of an IL 1 signal may be responsible for the deliverance of a tolerogenic rather than an immunogenic signal to the Th cell.

Interference with tolerance induction in vivo by inhibitors of prostaglandin synthesis.

Prostaglandins (PG) have been implicated as modulators of both humoral and cellular immune responses. In order to evaluate a possible role for PG in tolerance, the effect of inhibitors of prostaglandin synthesis on tolerance induction and circumvention has been investigated. Injection of deaggregated human gamma-globulin (DHGG) into A/J mice leads to unresponsiveness to a subsequent challenge with immunogenic aggregated human gamma-globulin (AHGG). Administration of indomethacin (IM) or acetylsalicylic acid (ASA) shortly before and after DHGG injection prevents tolerance induction. PGE2 reverses the tolerance overriding effect provided by IM. IM is not able to overcome unresponsiveness when given 10 and 20 days after tolerance induction, at a time point when both T and B lymphocytes are tolerant. As previously shown, lipopolysaccharide (LPS) both inhibits the induction of tolerance to HGG and circumvents tolerant T helper cells late in tolerance when competent B cells are present. In contrast, IM is unable to circumvent T-helper cell tolerance when given at Day 60 after tolerogen, when B cells (but not T cells) are responsive. Furthermore, LPS acts as an adjuvant, B-cell mitogens, inducer of polyclonal Ig secretion, and primes mice when given with tolerogen, while IM has none of these properties. These results indicate a difference between the effects of IM and LPS on tolerance and a possible role of PG in DHGG-mediated tolerance induction.

Antagonistic regulatory properties of the Fc region of immunoglobulin.

Coculture of human peripheral blood mononuclear cells with Fc fragments of human IgG, or the synthetic Fc region-derived peptide, p23, results in the release of oxidative products of arachidonic acid. Prostaglandin E was the major arachidonic acid metabolite found in the culture supernatants. Induction of polyclonal antibody production by Fc fragments and p23 is influenced by the concomitant production of prostaglandin E in culture. Addition of prostaglandin synthetase inhibitors, indomethacin and aspirin, to human peripheral blood mononuclear cell cultures resulted in a significant increase in the amount of polyclonal antibody produced. Moreover, addition of exogenous prostaglandin E to these cultures abrogated the ability of indomethacin to enhance Fc fragment-induced polyclonal antibody production. These results suggest that Fc fragments possess bifunctional immunoregulatory properties.

Binding of a synthetic analogue of mitogenic bacterial lipoprotein to murine major histocompatibility complex (MHC) gene products.

Lipoprotein from the outer membrane of Escherichia coli and a synthetic analogue of its N-terminal lipopeptide part, tripalmitoyl-pentapeptide, constitute potent mitogens and polyclonal activators of murine B-lymphocytes in vitro. When entering the circulation after intravenous administration in experimental animals, they interact with the humoral and cellular elements of the blood, which results in splenomegaly and B-lymphocyte activation in vivo. We investigated lipopeptide-binding proteins in normal mouse serum and on splenocytes. By affinity chromatography using an affinity adsorbent prepared by coupling the lipoprotein analogue to CPG-aminopropyl derivatized glass beads, we could enrich one major binding protein for tripalmitoyl-pentapeptide from mouse serum, which was identified as albumin. Binding proteins on lymphocytes were determined as follows: Spleen cells of C3H/HeJ mice were activated by the B cell mitogen lipoprotein, biosynthetically labelled with [3H]leucine, and solubilized by the nonionic detergent Nonidet P40. From the cell lysate, binding proteins were isolated by affinity chromatography: As analysed by polyacrylamide gel electrophoresis and autoradiography, proteins with molecular masses of 24, 27, 33, 45, 53, 61 and 71 kDa were eluted from the tripalmitoyl-pentapeptide adsorbent. The eluted material was further enriched for glycoproteins by Lens culinaris lectin affinity chromatography, and immunoprecipitation studies were performed with the glycoprotein fractions using alloantisera specific for class I and class II gene products of the H-2k haplotype. We could show that both class I and class II MHC glycoproteins could be enriched on the tripalmitoyl-pentapeptide column. This finding might suggest that, among other proteins, MHC-encoded proteins are involved in lymphocyte activation by a mitogenic lipopeptide.

Active transformation of tolerogenic to immunogenic signals in T and B cells by 8-bromoguanosine.

The injection of deaggregated human gamma-globulin (DHGG) into A/J mice results in the establishment of a state of unresponsiveness to subsequent challenge with immunogenic aggregated human gamma-globulin (AHGG). Administration of the B cell activator 8-bromoguanosine (8BrGuo) 3 hr after administration of DHGG converts the tolerogen to an immunogen and results in an antibody response of even greater magnitude than the primary response elicited by AHGG alone. Adoptive transfer studies with separated populations of T and B cells demonstrated that although transformation of the tolerogenic signal to an immunogenic signal involves effects of 8BrGuo on both T cells and B cells, the major effect appears to be activation of antigen-specific T cells that would otherwise become tolerant. Modulation of T cell tolerance could conceivably be mediated either by direct or indirect mechanisms. Interestingly, optimal responsiveness of B cells from animals treated with DHGG and 8BrGuo is not a T cell-independent event, but requires antigen-reactive T cells. 8BrGuo is not able to override unresponsiveness when given 10 to 20 days after tolerance induction, at a time point when both T and B lymphocytes are tolerant. However, when given at day 60, when T cells (but not B cells) remain tolerant to this antigen, the nucleoside is able to terminate the tolerant state prematurely, possibly by providing an alternate T helper-like signal directly to B cells or by recruiting nonspecific functional T helper cells.

Enhancement of the in vivo antibody response by an 8-derivatized guanine nucleoside.

The capacity of the C8-substituted guanine ribonucleosides to enhance the in vivo humoral immune response to the protein antigen, human gamma globulin (HGG), in A/J mice was evaluated. It has been shown recently that the C8-substituted guanine ribonucleosides are a new class of potent adjuvant for humoral immune responses to the sheep erythrocyte antigen. The current studies extend these findings to HGG with 8-bromoguanosine (8BrGuo), a representative of this group of nucleosides. The adjuvant activity of 8BrGuo in this system is highly dose and time dependent. Although 8BrGuo enhanced responses when injected either early (Day 0) or late (Day 4 or 5) after immunization, its administration on Day 1 or 2 most often led to no enhancement, suggesting that 8BrGuo may act on two events separated by a resistant stage in an ongoing immune response. The plaque-forming cell (PFC) response to HGG was enhanced optimally at doses as low as 1 mg 8BrGuo/mouse administered either on the day of immunization or 4 days thereafter. In contrast, however, serum anti-HGG antibody concentration assayed by enzyme-linked immunosorbent assay (ELISA) was enhanced only at doses of 10 mg or more, injected on the day of immunization, but doses as low as 1 mg were effective on Day 4. 8BrGuo was also an effective adjuvant when injected after antigen administration in incomplete Freund's adjuvant or when administered by several different routes (intraperitoneal, subcutaneous, oral).

[In vitro methods for testing of plant derived, bacterial and synthetic agents and toxins with the use of leukocyte primary cell cultures and cell lines]. / In-vitro-Methoden zur Testung pflanzlicher, bakterieller und synthetischer Agenzien und Toxine unter Anwendung von Leukozyten-Primärzellkulturen und -Zellinien.

In this article a variety of in vitro methods is presented to test bacterial, plant-derived and synthetic products on eukaryotic cells. These in vitro methods give a lot of valuable information and thus in some cases may substitute for animal experiments. The influence of plant-derived substances on the macromolecular cellular syntheses (RNA-, DNA- and protein syntheses) and on cell membranes (incorporation of oleate into membrane lecithin, histamine release, cell lysis) was investigated. The in vitro experiments were performed on primary leucocyte cultures with lima bean lectins, suzukacillin, trichotoxin, alamethicin, cianidanol, and beta-hydroxy-ethylrutoside. Also various cell activating compounds were used to test the stimulation of mitosis and the production of immunoglobulins in B-lymphocytes: lipopolysaccharide (endotoxin), lipoprotein, and the synthetic lipoprotein analogues tripalmitoyl pentapeptide (TPP) and tripalmitoyl cysteine (TPC). Moreover we studied the effects of these substances on the incorporation of unsaturated fatty acids into the cell membrane constituents. Plant-derived and synthetic metal-complexing agents and polyethyleneglycols were also tested for synergistic or inhibitory effects on mitogen activated primary cell cultures and lymphoid cell lines. In many cases, the conclusions from the in vitro experiments may be extended to predict the results of in vivo experiments. In some cases, in vitro results are definitive, therefore experiments with animals can be avoided.

Binding and processing of immunostimulatory Fc gamma 1 fragments by the murine macrophage cell line P388D1.

Previous data from this laboratory indicated that human Fc gamma fragments induce murine B cells to proliferate and that the induction is macrophage-dependent. To further investigate the role of macrophages in this phenomenon, biologically active Fc gamma fragments from a human IgG1 myeloma protein and the murine macrophage-like cell line P388D1 were utilized. Fc gamma 1 fragments bound specifically and to a single class of receptor on P388D1 cells with a Ka value of 4 X 10(6) M-1 and to approximately 2.4 X 10(5) binding sites/cell. The binding was not effectively inhibited by two immunostimulatory Fc gamma 1 subfragments that were macrophage independent, i.e., pFc' fragments approximating the C gamma 3 domain of IgG1 and synthetic peptides representing residues 335-357 in IgG1. P388D1 cells were able to process Fc gamma 1 fragments but not intact IgG1 into subfragments that were able to induce lymphocyte proliferation in the absence of macrophages. The processing was rapid and resulted in active subfragments of several size classes. These findings not only further document the molecular and cellular events in these systems but underscore the usefulness of the P388D1 cell line in future studies on Fc fragment-induced lymphocyte regulation.