Effects of human interleukin-1 on natural killer cell activity: is fever a host defense mechanism for tumor killing?

Interleukin-1 (IL-1) represents a family of polypeptides with a wide range of biological activities. cDNA from two gene products has been cloned; there are probably more. The human IL-1 family plays an important role in the pathogenesis of many diseases and functions as a key mediator of host response to various infectious, inflammatory, neoplastic, and immunologic challenges. Recombinant mouse (pI 5) and recombinant human (pI 7) IL-1s are being used to confirm the multiple biological properties of IL-1s. Some IL-1 biological activities seem to be involved with mechanisms of host tumor killing. Incubating purified or recombinant human IL-1 with human peripheral blood mononuclear cells in the presence of IL-2 or interferon-alpha results in a synergistic enhancement of certain tumor cells. More recent results indicate that IL-1 exhibits direct cytotoxicity for tumor cells in vitro. The peripheral blood mononuclear cells of patients with tumors demonstrate decreased production of IL-1 when challenged with endotoxin and show a comparable decrease in natural killer activity; adding exogenous IL-1 reverses this defect in these patients. However, induction of hepatic acute-phase proteins such as serum amyloid A serves as a negative feedback since the amyloid protein suppresses natural killer activity. Moreover, natural killer cell activity in the presence of IL-1 or interferon-alpha is suppressed by incubating temperatures of 39 degrees C. This effect is not reversed by inhibitors of prostaglandin synthesis. IL-1 is clearly important to host defense against malignancy, but some aspects of IL-1 biology seem to exert a contrary influence.     

Interleukin-2-induced decrease in the buoyant density of cytotoxic cells and its relationship with proliferation

Interleukin 2 (IL-2) is known to induce an augmentation of natural killer activity. In the present study we have used discontinuous Percoll density gradients to investigate the changes in the buoyant density of killer effector cells generated in response to IL-2. In all systems examined (mouse and rat spleen cells and human peripheral blood mononuclear cells), the cytolytic effectors generated in response to IL-2 have markedly lower buoyant densities compared to fresh natural killer cells. Our results also suggest that if a single layer of 44.2% (v/v) Percoll is used, almost all IL-2-induced cytolytic activity can be enriched in the cells which float on this layer whereas the heavier cells from the pellet are devoid of cytotoxic activity. The contribution of proliferative activity to (a) the generation of cytotoxicity and (b) the decrease in the buoyant density of the IL-2-induced killer cells was also studied in the mouse system. Natural killer levels in mouse spleen cells treated with mitomycin C could be significantly augmented by IL-2. Moreover, the effector cells generated in control as well as mitomycin-C-treated spleen cells in response to IL-2 had the same low buoyant densities. These results indicate that proliferation is not a prerequisite for the activation of killer activity and a reduction in buoyant density in response to IL-2.     

Biological characterization of human interleukin-2 mutant proteins. Structure-activity relationship studies

Several human interleukin-2 (IL-2) mutant proteins have been produced previously by site-directed mutagenesis and found to have different capacities to induce T-cell proliferative activity. In this study, the abilities of these IL-2 mutant proteins to activate natural killer cells and to induce interferon-gamma production have been evaluated, and the binding of these proteins to IL-2 receptors analyzed. Natural killer cell activation and interferon-gamma induction assays showed that the relative activities of IL-2 mutant proteins were consistent with their relative activities in T-cell proliferation assay. Receptor-binding studies showed that the activities of most proteins correlated well with their respective affinities for high-affinity IL-2 receptors on CTLL-2 cells. Interestingly, although the mutant protein with deletion of cysteine 125 (des-Cys125) was biologically less active than the protein with substitution of alanine for cysteine 105 (Ala105), both proteins exhibited similar affinity. Des-Cys125, like IL-2 and Ala105, also caused down-regulation of high-affinity IL-2 receptors. Binding studies on MLA-144, a cell line expressing mainly intermediate-affinity IL-2 receptors (IL-2R beta), however, showed that des-Cys125 had much lower affinity than Ala105. These results suggest that binding of IL-2 and mutant proteins to the IL-2R beta component of the high-affinity receptor is essential for the induction of biological effects.     

Generation of nonspecific murine cytotoxic T cells in vitro by purified human interleukin 2

Murine spleen cells developed into nonspecific cytotoxic cells within 72 hr of culture in the presence of highly purified sources of human interleukin 2. In whole spleen cell cultures, human interleukin 2 generated effector cells which were Thy 1.2⁺, Lyt 2.2⁺, resistant to γ irradiation (1000 R), and capable of lysing both H-2 compatible and incompatible targets. The effector cells generated in this manner were not restricted to classical natural killer cell-sensitive targets. If thymus-derived cells (T cells) were depleted from the spleen cell population before culture with human interleukin 2, the effector cells generated were enriched in effectors capable of lysing natural killer cell-sensitive targets. Interferon was not produced in interleukin 2-stimulated spleen cell cultures. In addition, heterologous antibody to murine -γ-interferon did not abrogate the generation of cytotoxic cells by human interleukin 2. These and additional data suggest that human interleukin 2 is capable of stimulating γ-irradiation-sensitive Thy 1.2⁺ cell(s) capable of lysing a variety of target cells regardless of inherent sensitivities to classical natural killer cells. Thy 1.2^? cells were also stimulated by human interleukin 2 and lysed only natural killer cell-sensitive targets. Human interleukin 2 caused some Thy 1.2^? cells to become susceptible to lysis by anti-Thy 1.2 serum and complement.     

Purification and characterization of the immunostimulatory properties of recombinant human interleukin-1 beta

In this study we have used a new method for human recombinant IL-1 beta (rIL-1 beta) purification and investigated its immunostimulatory biological activity. The IL-1 beta gene was cloned using a novel mRNA preparation from activated human blood monocytes. The purification protocol consists of extraction and two chromatographic steps using the new Soloza cation exchange resin. The purified protein was characterized electrophoretically, by amino acid analysis and reverse phase chromatography. The protein migrated on SDS-PAGE with a molecular weight of 18.200 but demonstrated the minor presence of aggregates (dimers and trimers). Specific activity of purified rIL-1 beta in comitogenic assay on mouse thymocytes was 10(8) U/mg protein. rIL-1 beta increased in a dose dependent manner proliferation of Con A-stimulated murine thymocytes, splenocytes, PHA-stimulated human peripheral blood lymphocytes and transformed B-cell lines. Comitogenic activity depended on the degree of lymphocyte preactivation and was similar to that of natural human IL-1 beta. rIL-1 beta enhanced IL-2 production by murine spleen cells and EL-4 cell line and IL-2 receptor expression by human peripheral blood mononuclear cells. It induced PGE2 release from human blood monocytes but had no effect on human neutrophil chemotaxis, phagocytosis and respiratory burst.     

Expression of a single-chain human interleukin-12 gene in transgenic tobacco plants and functional studies

Interleukin 12 (IL-12) is a key heterodimeric cytokine produced by a variety of antigen-presenting cells, including dendritic cells, macrophages, and B cells. It displays a potent array of biological activities affecting natural killer (NK) and T cells. These activities include promotion of cell-mediated or type 1 T helper cell responses (Th1). Due to that property, IL-12 has been employed in cancer immunotherapy, in mouse models of infectious diseases and in airway inflammation, and it may also have utility as a vaccine adjuvant. Transgenic plants are being used in many laboratories around the world for the production of therapeutically valuable proteins and as vehicles for oral vaccines. Here we present the expression of a single-chain human interleukin-12 in transgenic tobacco plants. The biological activity of plant-produced IL-12 was determined by interferon gamma (IFN-gamma) production by natural killer (NK) cells, and the level of production was comparable to that obtained with commercially available recombinant IL-12. The potential use of this recombinant protein is discussed.     

Lack of reconstitution of nude mice alloreactivity by purified interleukin 2 and induction of non-H-2-specific effector cells by crude supernatants

To verify or to challenge the reports indicating that IL-2 was the only molecule involved in the reconstitution of nu/nu mice alloreactivity in vitro, Balb/c (H-2d) nu/nu spleen cells were primed in culture against C57/B16 (H-2b) in the presence of crude IL-2-containing supernatants or purified IL-2. The generation of cytotoxic effectors was evaluated against a panel of 51Cr-labeled target cells. Although crude IL-2-containing supernatants sustained the generation of cytotoxic effectors, purified "natural" IL-2 (from different origins) and recombinant IL-2 were not able to do so. Con A or PHA were identified as cofactors synergizing with IL-2 to induce effectors from nu/nu spleen cells. These effectors efficiently lysed EL4 (H-2b, tumor line), but not mitogen-induced blast cells from the same strain. They also lysed targets bearing irrelevant allogenic H-2 specificities. Cold competition experiments confirmed the lack of H-2 specificity of such effectors: lysis of EL4 cells (H-2b) was inhibited strongly by YAC-1 cells (H-2a, very sensitive to NK lysis) or P815 cells (H-2d, autologous to the nu/nu effectors). Our results clearly challenge earlier conclusions and indicate that IL-2 alone does not reconstitute nude mice alloreactivity. Crude supernatants containing IL-2 and mitogen induce nonspecific effectors with patterns of reactivity similar to those of activated natural killers. We think that the cytotoxicity observed in these conditions in nude mice results from the mitogenic triggering of some kind of prethymic killer cells which subsequently are expanded by IL-2.     

Interleukin-4 augments the cytotoxic capacity of lymphocytes and monocytes in antibody-dependent cellular cytotoxicity

Summary Human peripheral blood mononuclear cells (lymphocytes and monocytes) (PBMC) were preincubated for 0–24 h with human recombinant interleukin-4 (IL-4) and used as effector cells in an 18 h antibody-dependent cellular cytotoxicity (ADCC) assay with mAb 17-1A (mouse IgG2A) against SW948 (a human colorectal carcinoma cell line). A statistically significant increase in the lytic capability was noted after 2–24 h of preactivation. IL-4 at 1 ng/ml induced the highest cell lysis while higher and lower concentrations were inferior or had no effect at all. Preactivation for 24 h induced a more effective lytic cell population than 2 h prestimulation: 63 LU (lytic units)/10⁶ cells vs 42 LU/10⁶ cells. Pretreatment with 1 ng/ml IL-4 for 2 h induced a statistically significant increase in the ADCC activity of PBMC (P <0.05), of monocytes (P <0.01) and E-rosette-negative cells (natural killer cells) (P <0.05) compared to non-activated cells. IL-4 did not induce lymphokine-activated killer activity of PBMC against SW948. The spontaneous cytotoxicity against K562 was, however, increased after stimulation with 1 ng/ml IL-4 for 2 h of E-rosette-negative non-adherent cells.     

Activation of nonspecific killer cells by interleukin 2-containing supernatants

In the absence of specific antigen stimulation, nonspecific killer cells were induced by culturing C57BL/6 lymph node or spleen cells with interleukin 2-containing supernatants. These supernatants were obtained from stimulation of either rat spleen cells with concanavalin A or a variant of the T cell lymphoma, EL4 (H-2b) with phorbol myristic acetate. The ability of the EL4 supernatant to induce nonspecific killer cells was abrogated by absorption with an interleukin 2-dependent T cell line or by concanavalin A-stimulated spleen cell blasts, but not by lipopolysaccharide-stimulated spleen cell blasts or by a non-interleukin 2-producing EL4 line. Partially purified interleukin 2 from EL4 supernatants could also support nonspecific killer cell induction. The induction of cytolytic cells by interleukin 2 is sensitive to gamma-irradiation and has a D omicron of 120 rad. The nonspecific killer cells induced are likely cytotoxic T lymphocytes; the majority of the precursor and effector cells bear the Thy-1 alloantigen marker. These nonspecific killer cells killed a broad spectrum of target cells, including concanavalin A- and lipopolysaccharide-induced splenic blasts of syngeneic or allogeneic mice, a syngeneic tumor, and a cloned allogeneic cytotoxic T cell line. The frequency of precursors for nonspecific killer cells in C57BL/6 lymph node and spleen cells are 1/7000 and 1/12,000, respectively. Clonal analyses revealed that these nonspecific killers exhibit heterogeneity with respect to their target cell specificities. The induction of nonspecific killers by interleukin 2-containing supernatants is partially dependent on nylon wool-adherent cells; in antigen-stimulated cultures the most specific killer cells were obtained from cultures in which nylon wool-nonadherent lymph node responder cells were stimulated with nylon wool-nonadherent allogeneic splenic stimulator cells that were treated with anti-Thy-1 antibody and complement. The relevance of these findings with respect to the frequencies and fine specificities of cytotoxic T lymphocytes generated in interleukin 2-supplemented cultures is discussed.     

Interleukin 2 induces gamma-interferon production: participation of macrophages and NK-like cells

Interleukin 2 (IL 2) has been shown to be a potent stimulator of natural killer (NK) cells. In the present studies, partially purified mouse and human IL 2 preparations were also found to induce interferon (IFN) from mouse spleen cells. By the criteria of sensitivity to treatment at pH 2 and failure to be neutralized by a potent anti-alpha, beta IFN serum, the species of IFN produced was of type gamma. Cooperation between two types of cell, a macrophage and an NK-like cell, was required for IFN production by murine spleen cells treated with IL 2. The requirement for macrophages could be replaced with supernatant obtained by incubating macrophages for 24 hr with lymphokine preparations containing IL 2. Interestingly, mature T cells apparently played no role in the process. Furthermore, the beige (bg/bg) mutation, which severely impairs NK cell lytic activity, had no effect on the ability of NK-like cells to participate in IFN production. Cell fractionation experiments revealed no dissociation between the requirements for augmentation of NK cytotoxic activity and for IFN production, and it is concluded that at least a portion of the NK boosting induced by IL 2-containing preparations is mediated through gamma-IFN.     

Combined activation of murine lymphocytes with staphylococcal enterotoxin and interleukin-2 results in additive cytotoxic activity

This report demonstrates that in vitro activation of murine spleen cells with interleukin-2 (IL-2) or the bacterial superantigen staphylococcal enterotoxin A (SEA) results in different patterns of activation and function of cytotoxic cells. Lymphokine-activated killer activity and antibody-dependent cellular cytotoxicity (ADCC) are mainly mediated by IL-2 activated natural killer (NK) cells. SEA is the most powerful T cell mitogen known so far and retarets cytotoxic T lymphocytes (CTL) to tumors expressing major histocompatibility complex (MHC) class II in staphylococcal-enterotoxin-dependent cellular cytotoxicity (SDCC). Culture of mouse spleen cells with SEA led to expansion and activation of T cells which demonstrated strong SDCC activity and some NK-like cytotoxicity after 5 days in culture. Cell sorting revealed that both CD8⁺ and CD4⁺ T cells mediated SDCC but the former were more effective. Phenotypic analysis showed that SEA preferentially stimulated and expanded T cells expressing T cell receptor V11, in particular CD8⁺ T cells. Combined activation with SEA and IL-2 resulted in simultaneous induction of T and NK cell cytotoxicity. Moreover, IL-2 had additive effects on SEA-induced SDCC. Combined treatment with SEA and IL-2 might therefore be an approach to induce maximal cytotoxicity against tumors and to recruit both T and NK cells in tumor therapy.     

Production of high levels of interleukin 1-like activity by the SPI-802 human leukemia cell line with E receptors

The SPI-802 human leukemia cell line, which possesses E receptors and used to have natural killer activity, has been demonstrated to produce high levels of interleukin 1 (IL-1)-like activity. SPI-802 supernatants prepared in 1% serum-containing cultures with lipopolysaccharide stimulation, like similarly prepared adherent-cell-derived IL-1, enhanced phytohemagglutinininduced mouse thymocyte proliferation. When adherent-cell IL-1 gave 50% maximum activity at a reciprocal dilution of 20, SPI-802 supernatant gave it at 200, indicating the production of high levels of IL-1-like activity by the cell line. SPI-802 supernatant promoted the production of interleukin 2 (IL-2) by the Jurkat-F1884 T-cell line: Levels of IL-2 activity obtained with 15% SPI-802 supernatant were almost equivalent to those obtained with 50% adherent-cell IL-1 as estimated by the maximum proliferation of IL-2-dependent cytotoxic T cells. SPI-802 supernatant by itself exhibited no IL-2 activity. Major IL-1-like activity of SPI-802 supernatant was present in fractions from AcA54 columns corresponding to M, 12,000–20,000 and 60,000–70,000 and resolved on isoelectrofocusing into two distinct species with pI values of 5.0 and 7.0, being consistent with the results of adherent-cell IL-1. The SPI-802 cell line having E receptors is an ideal source of a soluble factor with the biological and biochemical Characteristics of human IL-1.     

A short synthetic peptide fragment of human interleukin-1 beta increases both human and murine natural killer activity

The effect of a short synthetic fragment of human interleukin-1 beta (hu IL-1 beta) on natural killer (NK) activity was examined. Peripheral-blood mononuclear cells (PBMC) from normal donors showed a significant increase in NK activity against K562 leukemia cells after preincubation for 18 h with the IL-1 peptide. A similar augmentation was not observed after culturing the cells in the presence of hu IL-1 beta. The increase in tumor cell lysis could not be ascribed to a cytolytic activity of the synthetic fragment on target cells, since the peptide caused no direct lysis of various tumor cell lines. Although the peptide enhanced NK cytotoxicity of PBMC, highly purified large granular lymphocytes were not susceptible to its stimulatory effect. The addition to the cultures of antibodies to human interleukin-2 (hu IL-2) completely blocked the peptide-induced boost of NK cytotoxicity, suggesting that IL-2 is mainly involved in the activation process. The ability of the IL-1 peptide to increase NK activity was further confirmed in vivo in the mouse. Cytotoxicity against YAC-1 lymphoma cells, which was very low in the spleen of untreated BALB/c mice, was in fact significantly increased after a single inoculation of the peptide. These data thus indicate that a short synthetic peptide fragment of hu IL-1 beta is able to increase both human and murine NK activity.     

B cells as antigen-presenting cells: antigen-specific IL-2 production by cloned T cells without expression of IL-2 receptors

A murine T cell clone, 24-2C, responds specifically to human IgG (HGG) in the context of I-Ab. B cells purified from mouse spleen cells were examined for their function as antigen-presenting cells (APC) in the response of 24-2C cells to HGG. B cells functioned as APC for IL-2 production but not for proliferation, whereas spleen cells or spleen-adherent cells functioned as APC for both IL-2 production and proliferation. LPS-activated B cells also failed to induce the proliferative response. The addition of the culture supernatant of 24-2C cells stimulated with HGG presented by irradiated spleen cells to the culture of 24-2C cells, irradiated B cells, and HGG induced the proliferative response of 24-2C cells, whereas IL-1, IL-3, and/or interferon-gamma did not reconstitute the proliferation. The expression of IL-2 receptors (IL-2R) on 24-2C cells was examined using a monoclonal anti-mouse IL-2R antibody AMT 13 or 7D4. 24-2C cells cultured with spleen cells as APC expressed IL-2R. Those cultured alone or with B cells as APC did not express IL-2R. Enlargement of 24-2C cells in response to HGG was also examined, and the relative cell size of those cultured with B cells or spleen cells as APC was larger than that of those cultured alone. These results demonstrate that B cells as APC induce IL-2 production and cell size enlargement in the response of 24-2C cloned T cells to HGG, but not IL-2R expression nor proliferation.     

High expression of NKR-P1 is not an absolute requirement for natural killer activity in BDIX rats

 NKR-P1 has been identified as a triggering structure selectively expressed on rat natural killer (NK) cells and adherent lymphokine-activated killer (A-LAK) cells. In vivo treatment with anti-NKR-P1 monoclonal antibody (mAb 3.2.3) was shown to induce complete inhibition of NK cytotoxicity and elimination of LAK cell precursors in Lewis and Fisher rat strains. We investigated the effects of mAb 3.2.3 in a colon tumor model in BDIX rats. Inoculation of animals with mAb 3.2.3 even at very high doses induced a strong but incomplete inhibition of NK cytotoxicity in nylon-wool-non-adherent spleen and peripheral blood cells. Generation of adherent A-LAK cells from their spleen precursors was also strongly but not fully inhibited. We also investigated the effect of treatment with mAb 3.2.3 on the tumorigenicity of the NK-sensitive REGb cell line. When subcutaneously inoculated in syngeneic animals, REGb cells induce tumors that first grow for 2 weeks, then spontaneously regress and disappear. In contrast with previous results using anti-asialoGM1, no significant difference in tumor growth was observed between rats treated with mAb 3.2.3 and control animals, even with a long-term treatment. In vitro, mAb 3.2.3 exhibited the same incomplete efficiency. Nylon-wool-non-adherent spleen cells treated with mAb 3.2.3 plus complement were completely free of 3.2.3^bright cells, but retained a substantial NK activity and generated LAK cells after culture with IL-2. After an overnight incubation in standard medium of 3.2.3-depleted spleen cells, 3.2.3^bright cells were partially recovered and the NK cytotoxic activity, as well as the generation of LAK cells, was significantly enhanced. These results suggest that a strong expression of NKR-P1 is not required for BDIX mononuclear cells to exhibit NK function and generate LAK cells under IL-2 activation. Received: 11 July 1995 / Accepted: 16 November 1995     

Purification of a multipotential colony-stimulating factor from pokeweed mitogen-stimulated mouse spleen cell conditioned medium

A factor able to stimulate the proliferation and differentiation of multipotential stem cells and progenitor cells of the granulocyte-macrophage, eosinophil, and erythroid lineages as well as being able to maintain factor-dependent cell lines in culture has been purified from pokeweed mitogen-stimulated mouse spleen cell-conditioned medium. The factor was purified over 2 million-fold by sequential fractionation using salting out chromatography, chromatography on phenyl-Sepharose, gel filtration on Sephadex G-75, ion exchange chromatography on DEAE-Sepharose, reverse-phase high performance liquid chromatography on a phenyl-silica column, and gel permeation high performance liquid chromatography. All of the biological activities ascribed to the multipotential colony-stimulating factor co-fractionated through all steps, and the other known mouse-active hemopoietic regulator in pokeweed mitogen-stimulated mouse spleen cell-conditioned medium, granulocyte-macrophage colony-stimulating factor, was separated at the ion exchange step. Two protein species having Mr = 24,000 and 19,000 were visualized by silver-staining of sodium dodecyl sulfate-polyacrylamide gels of the purified factor. Both species migrated coincidently with the biological activities. The factor was active at a half-maximal concentration of 1 X 10(-13) M when assayed on a factor-dependent cell line.     

Identification of amino acid residues critical for biological activity in human interleukin-18

Interleukin-18 (IL-18) is a pro-inflammatory cytokine, and IL-18-binding protein (IL-18BP) is a naturally occurring protein that binds IL-18 and neutralizes its biological activities. Computer modeling of human IL-18 identified two charged residues, Glu-42 and Lys-89, which interact with oppositely charged amino acid residues buried in a large hydrophobic pocket of IL-18BP. The cell surface IL-18 receptor alpha chain competes with IL-18BP for IL-18 binding, although the IL-18 receptor alpha chain does not share significant homology to IL-18BP. In the present study, Glu-42 was mutated to Lys and Lys-89 to Glu; Glu-42 and Lys-89 were also deleted separately. The deletion mutants (E42X and K89X) were devoid of biological activity, and the K89E mutant lost 95% of its activity. In contrast, compared with wild-type (WT) IL-18, the E42K mutant exhibited a 2-fold increase in biological activity and required a 4-fold greater concentration of IL-18BP for neutralization. The binding of WT IL-18 and its various mutants to human natural killer cells was evaluated by competition assays. The mutant E42K was more effective than WT IL-18 in inhibiting the binding of (125)I-IL-18 to natural killer cells, whereas the three inactive mutants E42X, K89E, and K89X were unable to compete with (125)I-IL-18 for binding. Similarly, WT IL-18 and the E42K mutant induced degradation of Ikappa-Balpha, whereas the three biologically inactive mutants did not induce degradation. The present study reveals that Glu-42 and Lys-89 are critical amino acid residues for the integrity of IL-18 structure and are important for binding to cell surface receptors, for signal transduction, and for neutralization by IL-18BP.     

Immunomodulatory activity of polysaccharide isolated from Angelica sinensis

The immunomodulatory activities of an Angelica sinensis polysaccharide (AP), purified from the fresh root of A. sinensis Diels, were investigated in vitro in relation to the specificity to immune cells. AP consisted of rhamnose, arabinose, mannose, glucose, galactose with the molar ratio of 1.00:4.54:2.98:11.09:7.45. Cell proliferation results showed that proliferation of total spleen cells, macrophages and T cells were promoted by the action of AP. The treatment of AP increased the production of IL-2 and IFN-γ, while that of IL-4 was decreased. RT-PCR analysis displayed that the IL-2 and IFN-γ gene expression were enhanced but the IL-4 gene expression was decreased. Some differences in cytokines secretion pattern were also detected, the expression of IFN-γ was rapidly augmented while that of IL-2 responded later. The flow cytometry results showed that the percentage of CD4⁺T cell in total spleen cells was remarkably increased by AP, while that of CD8⁺T cell was slightly decreased. In conclusion, AP has immunomodulatory activity by regulating expression of Th1 and Th2 related cytokines. The time–effect relation of cytokines response also suggests that macrophages and natural killer cells involved in nonspecific immunity were primary activated, and helper T cell were secondarily affected by AP.     

Differential biological activities of human interleukin-1 alpha and interleukin-1 beta

We examined the biological effects induced by both human recombinant interleukin-1 alpha (IL-1 alpha) and beta (IL-1 beta) in five different cell types of human, rat and mouse origin. IL-1 alpha and beta preparations were standardized in terms of biological activity in the EL-4/CTLL bioassay and, in parallel, employed to stimulate PGE2 secretion in human fibroblasts, mesangial cells (MC), C57B1/6 mouse MC, DBA/2 mouse macrophages and Sprague Dawley rat MC. In addition, the co-mitogenic effects of IL-1 alpha and beta were determined in freshly prepared Sprague Dawley rat thymocytes. No significant differences in IL-1 alpha and beta concentration dependent PGE2 production were detectable in the different cell types (MC, fibroblasts and macrophages) of human or mouse origin. Incubation of Sprague Dawley rat MC with both IL-1 alpha and beta resulted in a concentration dependent production of PGE2. However, in contrast to mouse or human MC the potency of IL-1 beta to induce PGE2 in Sprague Dawley rat MC was 26-fold higher compared to IL-1 alpha. In addition, the potency of IL-1 beta to enhance co-stimulated proliferation of Sprague Dawley thymocytes was 200-fold higher than that of equal biological activities of IL-1 alpha. When we tested the additive effects on Sprague Dawley cells, increasing IL-1 beta concentrations added to a fixed IL-1 alpha concentration resulted in a cumulative rise in both, PGE2 secretion by MC and thymocyte proliferation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Early Th1 response in unprimed nonobese diabetic mice to the tyrosine phosphatase-like insulinoma-associated protein 2, an autoantigen in type 1 diabetes

The insulinoma-associated protein 2 (IA-2) is a phosphatase-like autoantigen inducing T and B cell responses associated with human insulin-dependent diabetes mellitus (IDDM). We now report that T cell responses to IA-2 can also be detected in the nonobese diabetic (NOD) mouse, a model of human IDDM. Cytokine secretion in response to purified mouse rIA-2, characterized by high IFN-gamma and relatively low IL-10 and IL-6 secretion, was elicited in spleen cells from unprimed NOD mice. Conversely, no response to IA-2 was induced in spleen cells from BALB/c, C57BL/6, or Biozzi AB/H mice that express, like NOD, the I-A(g7) class II molecule, but are not susceptible to spontaneous IDDM. The IA-2-induced IFN-gamma response in NOD spleen cells could already be detected at 3 wk and peaked at 8 wk of age, whereas the IL-10 secretion was maximal at 4 wk of age and then waned. IA-2-dependent IFN-gamma secretion was induced in CD4(+) cells from spleen as well as pancreatic and mesenteric lymph nodes. It required Ag presentation by I-A(g7) molecules and engagement of the CD4 coreceptor. Interestingly, cytokines were produced in the absence of cell proliferation and IL-2 secretion. The biological relevance of the response to IA-2 is indicated by the enhanced IDDM following a single injection of the recombinant protein emulsified in IFA into 18-day-old NOD mice. In addition, IFN-gamma production in response to IA-2 and IDDM acceleration could be induced by IL-12 administration to 12-day-old NOD mice. These results identify IA-2 as an early T cell-inducing autoantigen in the NOD mouse and indicate a role for the IA-2-induced Th1 cell response in IDDM pathogenesis.