Characterization of an antigen-specific suppressive factor derived from a cloned suppressor effector T cell line

A cloned effector-type suppressor T cell line, 3D10, which is known to suppress the antibody response against dinitrophenylated keyhole limpet hemocyanin (KLH), produced a soluble KLH-specific factor (TsF) that can replace the function of parental T cell clones. High activity of TsF was released spontaneously into the culture supernatant when cultured in interleukin 2 (IL 2)-containing medium, requiring no antigenic stimulation. The culture supernatant of 3D10 was also capable of inhibiting the KLH-induced proliferative response of primed T cells in an antigen-specific manner. The direct target of TsF was found to be Lyt-1+2- T cells undergoing an early stage of antigen-specific proliferation. TsF was antigen binding but lacked any other serologic markers such as I-J and immunoglobulin heavy chain-linked allotypic determinants on T cells. No genetic restriction was found in its action on allogeneic T cells. The production of IL 2 in proliferative T cells by antigenic stimulation was not inhibited by TsF. These results indicate that the TsF described here is the legitimate mediator produced by the effector-type suppressor T cell that suppresses the antigen-specific responses of Lyt-1+2- T cells. The m.w. of TsF was approximately 75,000.     

Biological and biochemical characterization of bovine interleukin 2. Studies with cloned bovine T cells

Bovine peripheral blood lymphocytes stimulated with the T cell mitogen concanavalin A (Con A) secrete a lymphokine with biological properties similar to T cell growth factor (TCGF) or interleukin 2 (IL 2) from other species. The material supports proliferation of Con A-derived T cell blasts, limiting dilution cloning of T cell blasts, and continuous growth of T cell clones for over 6 mo in vitro. A quantitative microassay with the use of TCGF-dependent, Con A-unresponsive cloned T cells was used to determine the biological activity during purification of IL 2. A single peak of activity with an apparent m.w. of 25,000 to 28,000 was recovered after gel filtration. This material eluted from DEAE-Sephacryl between 135 and 165 mM NaCl. After isoelectric focusing, high pressure liquid chromatography, and gel electrophoresis under reducing conditions, peak IL 2 activity was associated with proteins having m.w. of 20,000 and 23,000.     

Stimulated rat T cell-derived inhibitory factor for cellular DNA synthesis (STIF). I. Isolation and characterization

A lymphokine inhibitory for cellular DNA synthesis (termed STIF) was isolated from the culture supernatants of concanavalin A (Con A)-stimulated SD rat spleen cells. STIF inhibited the DNA synthesis of mouse bone marrow cells as well as mouse leukemia cells. STIF has an apparent m.w. of 45,000 to 50,000 and is separable from IL 2, m.w. 20,000 to 25,000, by Sephacryl S-200 gel filtration, but not from immune interferon (IFN) having the same m.w. as STIF. Con A-Sepharose chromatography of the fraction containing STIF and IFN could separate these lymphokines into Con A-unbound and Con A-bound fractions, respectively. Further fractionation of the STIF fraction by DEAE-Sephadex A-50 or Mono Q-FPLC anion exchange chromatography indicated that the STIF fraction contained two components of STIF activity, both showing the same pI value (5.1 to 5.6) on flat-bed isoelectric focusing. STIF was characterized as a sugar-free lymphokine of trypsin-sensitive protein nature.     

Regulation of IFN-gamma induction in human peripheral blood cells by exogenous and endogenously produced interleukin 2

Interferon (IFN)-gamma production, stimulated by the addition of exogenous interleukin (IL) 2, T cell mitogens, or tuberculin purified protein derivative (PPD) was studied in cultures of separated human mononuclear cells or unseparated peripheral blood leukocytes (PBL). IFN-gamma was induced by the addition of IL 2 to cultures of otherwise unstimulated cells. The minimal concentration of exogenous IL 2 required to cause a reproducible stimulation of IFN-gamma was about 10 U/ml, i.e., approximately 50 times the minimal concentration required to stimulate proliferation in an IL 2-dependent murine cytotoxic T cell line. Approximately 500 to 1000 IL 2 U/ml were required to produce maximal stimulation of IFN-gamma production in otherwise unstimulated cultures. Monoclonal antibody anti-Tac, specific for an epitope associated with the IL 2 receptor (IL 2 R), inhibited IFN-gamma induction by exogenous IL 2 less strongly than induction by phytohemagglutinin (PHA) or concanavalin A (Con A). The highest degree of inhibition was exerted by anti-Tac on IFN-gamma production stimulated with PPD. Stimulation of IFN-gamma induction by exogenous IL 2 and the inhibitory action of anti-Tac on IFN-gamma production were also seen in cultures of irradiated (2000 R) cells. Treatment of cells with subinducing doses of Con A or phorbol myristate acetate increased IFN-gamma induction by exogenous IL 2. Taken together, the data suggest that endogenously generated IL 2 is a major mediator of IFN-gamma induction in PBL cultures stimulated with antigens or T cell mitogens.     

Preliminary characterization of human T cell suppressor factor (HTsF) isolated from tonsil cells by monoclonal antibody immunoadsorbence

We have shown that a murine monoclonal antibody, B16G, recognizes a constant region determinant of a T cell suppressor factor (TsF) in DBA/2 mice. The molecule recognized by B16G was shown to be a heterodimer with a native m.w. in the region of 80,000. We now show that B16G also reacts with a similar molecule derived from human lymphoid tissue. Yields of about 100 micrograms could be obtained from the solubilized membranes and cytosol from about 10(10) tonsillar cells by elution of adsorbed materials from B16G immunoadsorbent columns. As with the murine system, the human TsF (HTsF) thus derived was capable of suppressing the mixed leukocyte reaction (MLR) of homologous effector T lymphocytes. However, this same material was not suppressive across the HL-A barrier, that is, when allogeneic effector cells were used in the MLR. Preliminary characterization of the HTsF showed it to have a native m.w. of 80,000 to 90,000 to be composed of a heterodimer with subunit m.w. in the region of 45,000 to 50,000, and to have an associated peptide of approximately 25,000. These observations provide evidence for the conserved nature of genes encoding TsF and correlate with observations of other investigators on the considerable homology between genes encoding the murine and human T cell receptor.     

Interleukin 3: A differentiation and growth factor for the mouse mast cell that contains chondroitin sulfate E proteoglycan

Mouse mast cells were differentiated and grown by culturing bone marrow cells in medium containing 2 X 10(-10) M purified interleukin 3 (IL 3). The cells obtained were similar in ultrastructure, membrane antigen phenotype, proteoglycan type, and lipid products generated upon immunologic activation to mast cells differentiated in culture by WEHI-3-conditioned medium (WEHI-3-CM) and by concanavalin A (Con A) splenocyte-conditioned medium. Phenotypically, these cells expressed IgE receptors and H-2 antigens and were recognized by a monoclonal antibody (B23.1) that did not react with mouse serosal heparin-containing mast cells. The classic phenotypic markers of mouse T cells or macrophages were not detected. The mouse mast cells differentiated with IL 3 as well as those differentiated in WEHI-3-CM incorporated [35S]sulfate into a nonheparin proteoglycan of 150,000 to 200,000 m.w. Most of the 35S-labeled macromolecules were degraded by chondroitinase ABC to yield only two disaccharides, which co-chromatographed on ascending thin layer chromatography with delta Di-4S and delta Di-diSE; thus, the proteoglycan in these cells is composed of chondroitin sulfate E glycosaminoglycans. After sensitization with monoclonal IgE, washing, and antigen activation, the IL 3 differentiated cells released the preformed mediator beta-hexosaminidase and generated and released two major classes of lipid mediators. The quantities of leukotriene C4 (LTC4), leukotriene B4 (LTB4), and platelet-activating factor (PAF-acether) generated/10(6) cells were 17, 3.0, and 3.1 ng, respectively. The ratio of these three lipid mediators was similar to that obtained from mast cells differentiated in WEHI-3-CM and in Con A-conditioned medium. Thus, T cell-derived IL 3 is the component present in the conditioned media that is required for differentiation and growth of the subclass of mast cells containing chondroitin sulfate E proteoglycan, designated E-MC. The IL 3-dependent E-MC may represent the in vitro counterpart of the T-cell-dependent mucosal mast cell, suggesting in turn that the production of LTC4 and LTB4 and of PAF-acether may play a role in adaptive intestinal immunity to helminthic parasites.     

Ultraviolet-induced suppressor T cells and factor(s) in murine contact photosensitivity. III. Mode of action of T-cell-suppressor factor(s) and interaction with cytokines

The mode of action of T-cell-suppressor factor (TsF) induced by ultraviolet B (UVB) preirradiation in terms of interaction with several cytokines was studied. Suppression of murine contact photosensitivity (CPS) to 3,3',4',5-tetrachlorosalicylanilide (TCSA) by preirradiation of the sensitizing site to low doses of UVB was caused by antigen-specific suppressor T cells (Ts) and was not associated with the generation of efferent limb-acting suppressor cells. TsF released by Ts inhibited the proliferation of immune lymph node (LN) cells in vitro and reduced interleukin (IL)-2 production of these cells in an antigen-specific fashion without affecting the IL-2 receptor (IL-2R) expression. Both rIL-2 and rGM-CSF have the ability to restore CPS responses in the UVB-preirradiated mice when administered after but not before photosensitization. However, rIL-2 but not rGM-CSF counteracted the in vivo inhibitory effect of TsF. rGM-CSF did not affect the density of I-A+ epidermal Langerhans cells (LCs). It was suggested that TsF inhibited IL-2-mediated immune T-cell proliferation, while rGM-CSF reconstituted the CPS by enhancing the function of photodamaged LCs. These results indicate multiple steps of the UVB-induced immunosuppression circuit, each of which seems to be controlled by different immunomodulators.     

Isolation of an antigen-specific T suppressor factor that suppresses the in vivo response of DBA/2 mice to ferredoxin

A T cell hybridoma (Fd11) has been produced from B10.D2 mice that secretes a putative antigen-specific T suppressor factor (TsF). The TsF is isolable from culture supernatants of Fd11 by affinity purification over columns containing either a monoclonal antibody (B16G) shown previously to be capable of binding murine TsF or ferredoxin (Fd), the nominal antigen to which the Fd11 TsF binds. Specificity of the Fd11 TsF for Fd was established by comparing it to another TsF isolated by us (A10 TsF) in a sandwich ELISA, and by demonstrating the specific reactivity to Fd of the hybridoma in calcium flux studies. The Fd11 affinity-purified TsF was shown to contain two major unique components with m.w. in the region of 80,000 and 35,000 when run on reducing polyacrylamide gels in the presence of sodium dodecyl sulphate. Specific immunosuppressive properties of Fd11 were demonstrated when Fd11 TsF (10 micrograms) was injected i.v. into Fd-primed syngeneic mice at the time of antigen boost. Fd11 TsF specifically and significantly diminished the secondary antibody response to Fd in DBA/2 mice.     

Effects of an anti-tumor polysaccharide, schizophyllan, on interferon-gamma and interleukin 2 production by peripheral blood mononuclear cells

We examined the effect of schizophyllan, a neutral glucan isolated from the culture filtrate of Schizophyllum commune Fries, on the production of interferon-gamma (IFN-gamma) and interleukin 2 (IL 2) from the mitogen-stimulated human peripheral blood mononuclear cells (PBMC). When the levels of IFN-gamma and IL 2 in the culture medium of phytohemagglutin (PHA)- or concanavalin A (Con A)-stimulated PBMC were measured by radioimmunoassay and enzyme-linked immunosorbent assay (ELISA) respectively, a significant increase in the production of both cytokines by schizophyllan was demonstrated. These results suggest that the increased production of IFN-gamma and IL 2 may be responsible for the anti-tumor activity of this glucan.     

Interleukin 2-mediated immune interferon (IFN-gamma) production by human T cells and T cell subsets

Human interleukin 2 (IL 2, or T cell growth factor), which was free of lectin and interferon activity (IFN), induced human peripheral T lymphocytes to produce immune IFN (IFN-gamma). In contrast, non-T cells and macrophages did not produce IFN-gamma in response to IL 2. IL 2 acted directly on unstimulated T cells to induce IFN-gamma production, and also acted in synergy with a suboptimal dose (2 micrograms/ml) of concanavalin A (Con A) to enhance IFN-gamma production. The IFN-gamma-inducing activity of partially purified IL 2 was absorbed along with the IL 2 activity by murine IL 2-dependent CT-6 cell line cells. This further supports the view that IFN-gamma-inducing activity is identical to IL 2. When T cells were separated further into helper/inducer T4+ and suppressor/cytotoxic T8+ subsets by negative selection with monoclonal antibody and complement, both T4+ and T8+-enriched cells produced significant levels of IFN-gamma in response to IL 2. Complete removal of macrophages from purified T lymphocyte populations by treatment of OKM1 plus complement consistently reduced IFN-gamma production in response to IL 2 to a limited degree; readdition of macrophages restored IFN-gamma production by both T cell subsets. This observation that IL 2 contributes to the production of IFN-gamma by human lymphocytes suggests that a cascade of lymphocyte-cell interactions participates in human immune responses.     

B cell helper factors. II. Synergy among three helper factors in the response of T cell- and macrophage-depleted B cells

The concanavalin A- (Con A) stimulated supernatant of normal spleen cells (normal Con A SN) was shown to contain a set of helper factors sufficient to allow T cell- and macrophage- (M phi) depleted murine splenic B cells to produce a plaque-forming cell response to the antigen sheep red blood cells (SRBC). The activity of normal Con A SN could be reconstituted by a mixture of three helper factor preparations. The first was the interleukin 2- (IL 2) containing Con A SN of the T cell hybridoma, FS6-14.13. The second was a normal Con A SN depleted of IL 2 by extended culture with T cell blasts from which the 30,000 to 50,000 m.w. factors were isolated (interleukin X, IL X). The third was a SN either from the M phi tumor cell line P388D1 or from normal M phi taken from Corynebacterium parvum-immune mice. The combination of all three helper factor preparations was required to equal the activity of normal Con A SN; however, the M phi SN had the least overall effect. The M phi SN and IL 2 had to be added at the initiation of the culture period for a maximal effect, but the IL X preparation was most effective when added 24 hr after the initiation of culture. These results indicate that at least three nonspecific helper factors contribute to the helper activity in normal Con A SN.     

A monoclonal antibody raised to tumor-specific T cell-derived suppressor factors also recognizes T suppressor inducer factors of the 4-hydroxy-3-nitrophenyl acetyl hapten suppressor network

A monoclonal antibody (mAb), B16G, was raised from BALB/c mice immunized with affinity-purified T suppressor factors (TsF) specific for the murine mastocytoma P815. This mAb was found to bind to polyclonal TsF isolated from the spleens of tumor-bearing animals, and to the TsF released from a P815-specific T cell hybridoma. In this study, B16G was tested for its reactivity with TsF produced in the 4-hydroxy-3-nitrophenyl acetyl hapten system. The factors from three types of suppressor T cell hybridomas, each representing the immortalized analogues of the inducer T suppressor cell (Ts1), transducer suppressor cell (Ts2), and effector suppressor cell (Ts3) network populations, were tested. B16G was found to be reactive with two sources of TsF1 as assayed by enzyme-linked immunosorbent assay and delayed-type hypersensitivity bioassay. By contrast, TsF2 and TsF3 were nonreactive with B16G. These results indicate that B16G recognizes class-specific suppressor factor determinants, and that the transducer/effector factors of the network are apparently serologically distinct. Because the B16G mAb fails to recognize 4-hydroxy-3-nitro-phenyl acetyl-specific TsF3 that share idiotype-related determinants with TsF1 yet binds to TsF1 molecules that have interacted with antigen, the binding is apparently independent of the site of antigen recognition. Additionally, the results show that the tumor-specific TsF1 raised in one suppressor system share serologic determinants with anti-hapten TsF1 raised in another.     

Characterization and partial purification of a specific interleukin 2 inhibitor

To investigate the mechanisms that regulate the action of interleukin 2 (IL 2) and possibly limit its activity, we screened supernatants of mouse spleen cell cultures which had been stimulated with concanavalin A (Con A) for their ability to inhibit IL 2-mediated proliferation of a cloned IL 2-dependent line. Inhibitory activities with m.w. of 10,000 to 12,000 and 60,000 to 80,000 daltons could be identified in supernatants of both L3T4+ and Ly-2+ T cells, but not in supernatants of Con A or lipopolysaccharide-stimulated B cells. Maximal inhibitory activity was observed after 3 to 4 days of stimulation, and this inhibitory activity could be overcome by increasing the stimulatory concentration of IL 2. When the factor was further purified by reverse-phase high pressure liquid chromatography, it eluted as a single peak with an m.w. of 11,000 to 12,000 daltons which inhibited IL 2- but not IL 3-dependent proliferation. The mechanisms by which this new lymphokine might play in the control of the clonal expansion of T lymphocytes are discussed.     

Activation of rat and human alveolar macrophage intracellular microbicidal activity by a preformed LGL cytokine

An alveolar macrophage-activating factor was released from Percoll fractionated large granular lymphocytes (LGL) within minutes of contact with either the natural killer (NK)-sensitive K562 tumor or heat-killed Staphylococcus aureus. The factor enhanced the intracellular killing of S. aureus without altering the rate of phagocytosis. Factor release was blocked by treatment of LGL with monensin, a carboxylic ionophore that inhibits vesicular traffic, but was unaffected by actinomycin D and cycloheximide pretreatment, suggesting that the cytokine was performed. The cell producing the factor was found only in Percoll fractions containing high concentrations of lytic NK cells and LGL, and the phenotypes of the LGL were HNK-1+ and E rosette-. The macrophage activating factor was a small protein of 10,000 to 20,000 daltons, as determined by gel fractionation, and was sensitive to proteolytic enzymes and heat and pH labile. Active supernatants were devoid of antiviral (interferon; IFN) or interleukin 2 (IL 2) activity, and IFN-beta, IFN-gamma, IL 2, and interleukin 1 were unable to activate staphylococcidal activity, suggesting that the LGL macrophage activating factor was distinguishable from these cytokines.     

Concanavalin A triggers T lymphocytes by directly interacting with their receptors for activation

Anti-HLA-DR antibodies did not inhibit concanavalin A-(Con A) induced T cell proliferation or the generation of suppressor cells capable of inhibiting immunoglobulin synthesis in autologous mononuclear cells after pokeweed mitogen stimulation. Nylon-wool purified T cells (pretreated with anti-HLA-DR antibody and C) exposed to Con A acquired responsiveness to interleukin 2 (IL 2) and were able to absorb this growth factor, whereas nonlectin-treated cells did not respond to IL 2 and could not absorb it. In the presence of interleukin 1 (IL 1), Con A stimulated the synthesis of IL 2 in purified OKT4+ lymphocytes but not OKT8+ cells. However, in the absence of IL 1, neither resting OKT4+ nor Con A-treated OKT4+ cells produced IL 2. Con A by itself did not directly stimulate macrophages to synthesize IL 1, although it could do so in the presence of OKT4+ but not OKT8+ lymphocytes. In addition, Con A induced proliferation of purified T cells provided IL 1 was supplied to the cultures. Cyclosporin A rendered Con A-treated T cells unresponsive to IL 2, made lectin-stimulated OKT4+ lymphocytes unable to respond to IL 1, and inhibited the synthesis of IL 2. Furthermore, this drug abrogated the Con A-stimulated synthesis of IL 1 by acting on OKT4+ lymphocytes and not on macrophages. Finally, cyclosporin-A suppressed the proliferative response and the generation of suppressor T cells induced by Con A. The following are concluded: 1) HLA-DR antigens do not seem to play any role in the triggering of T cells by Con A, and macrophages participate in lectin-induced activation of T cells mainly by providing IL 1. 2) Cyclosporin-A inhibits activation of T cells by interfering with the mechanism by which Con A stimulates T lymphocytes. 3) Con A triggers T lymphocytes by directly interacting with their receptors for activation.     

Requirement for three distinct lymphokines for the induction of cytotoxic T lymphocytes from thymocytes

The induction of cytotoxic T lymphocytes (CTL) from CTL precursors requires a combination of antigen and lymphokine signals. To investigate lymphokine requirements for CTL generation, we used an assay in which helper T cell and accessory cell-depleted spleen cells or whole thymocytes were cultured with lectin (Con A) and lymphokines. This culture was followed by assessment of lectin-dependent cytolysis. High concentrations of recombinant interleukin 2 (R-IL 2) (100 U/ml) alone were not sufficient for lectin-mediated CTL induction from thymocytes, whereas 20 to 100 U/ml of R-IL 2 alone could induce a significant lectin-mediated CTL response from accessory cell-depleted spleen cells. Using thymocytes as responders, we found purified or recombinant interferon-gamma (IFN-gamma) did not cause cytolytic activity either in the absence of or in the presence of R-IL 2. However, supernatant from Con A-stimulated rat spleen cells (rat Con A SN) in combination with R-IL 2 could induce cytolytic activity, suggesting that several factors are required for CTL induction. Con A SN was fractionated by gel filtration and the fractions were tested for ability to induce CTL. In the presence of a low level of R-IL 2 (5 U/ml), fractions with a Mr of approximately 31,000 could induce CTL, and this activity was referred to as CTL differentiation factor (CDF). The peak fractions containing CDF activity did not have detectable IL 1, IL 2, IFN-gamma, or CSF activity. However, by add-back experiments and the use of blocking antibodies, a monoclonal antibody against the IL 2 receptor or antibodies against murine IFN-gamma, we demonstrated that CTL induction from mature thymocytes (L3T4-, Lyt-2+) requires CDF activity in addition to IL 2 and IFN-gamma.     

Development and characterization of a human B cell line that responds to B cell growth factor but not interleukin 2

The human lymphoblastoid cell line we present here proliferated in response to a 14,000 m.w. B cell growth factor (BCGF), and not to interleukin 2 (IL 2). This cell line, designated B-A3, was established by Epstein Barr virus (EBV) transformation of Staphylococcus aureus Cowan I (SAC)-activated spleen B cells, and has been maintained in RPMI 1640 medium complemented with 15% fetal calf serum (FCS) without the addition of other exogenous growth factors. A proliferative response, as measured by [3H]thymidine uptake of B-A3 cells was significantly induced by either commercial IL 2-free human BCGF preparations, or phytohemagglutinin-stimulated mixed lymphocyte culture supernatant at all FCS concentrations used in the assay. The most marked proliferation due to BCGF, however, was observed in the absence of FCS. This BCGF-induced proliferation was not influenced by IL 2 or interferon-gamma (IFN-gamma), because both recombinant IL 2 and IFN-gamma failed to induce proliferation. The response of B-A3 cells to a specific BCGF was additionally indicated by the responsiveness of this cell line to BCGF purified by a series of chromatographic steps. The BCGF to which B-A3 cells responded had a m.w. of 14,000 and was similar to low m.w. BCGF reported from other laboratories. Surface characterization of B-A3 cells, analyzed by flow cytometry with a panel of monoclonal antibodies, demonstrated that the majority of B-A3 cells were stained positively with Leu-12, HLA-DR, and surface IgG markers, whereas staining with surface IgM, IgD markers, pan T cell markers (Leu-4 and Leu-9), and IL 2 receptor (Tac) were consistently negative. Taken together, the human lymphoblastoid cell line we present here responded specifically to a low m.w. BCGF. This cell line may be of value in the purification of BCGF to homogeneity, in studies of the interactions of BCGF with human B cells, and in the identification of the BCGF receptor.     

Studies on the molecular nature of human interleukin 1

Adherent human blood monocytes were stimulated with heat-killed Staphylococcus albus or Escherichia coli lipopolysaccharide in the presence of 35S-methionine-, [3H]leucine-, or 14C-labeled amino acids. After incubation, interleukin 1 (IL 1) activity in the supernatant medium was purified over an anti-human IL 1 immunoadsorbent followed by gel filtration and chromatofocusing. The purity of the IL 1 was assessed by fluorography of one- and two-dimensional SDS-polyacrylamide gel electrophoresis. Isoelectric and chromatofocusing of low m.w. proteins (less than 20,000 m.w.) revealed three charged 18,000 m.w. species of IL 1 with approximate pI's of 7, 6, and 5, with the most abundant form at pI 7. During the purification procedures, lymphocyte co-mitogenic activity, fever in rabbits, and prostaglandin E2 release from dermal fibroblasts co-eluted in the same fractions. In addition, these fractions were active when injected into endotoxin-resistant C3H/HeJ mice for the production of fever, the induction of serum amyloid A protein, a decrease in serum iron concentration, and an increase in the number of circulating neutrophils. Fluorography revealed homogeneous bands with an m.w. of about 18,000 which correlated with these biological activities. The specific activity of the pI 6 or 5 IL 1, as judged by the ratio of T cell co-mitogenic activity to incorporated radiolabeled amino acid, was at least 10-fold greater than that observed for the pI 7 form. This result suggests that the amino acid compositions of the two 18,000 m.w. acidic forms are unrelated to the pI 7 species. These results also demonstrate that the pI 7 human monocyte IL 1 is the predominant 18,000 m.w. form synthesized and, furthermore, that homogeneous pI 7 IL 1 exhibits multiple biological properties on various tissues by modulating immunologic, inflammatory, metabolic, and neurologic functions. Data are also presented for the existence of a high m.w. (32,000) human pro-IL 1 molecule as the predominant monocytic intracellular form. This pro-IL 1 is degraded artifactually during isolation to lower m.w. forms in the presence of an extracellular serine protease activity. These data are consistent with a model for IL 1 secretion in which pro-IL 1 is first synthesized within the cell and is processed during or after extracellular transport.     

Interleukin-2 is one of the targets of 1,25-dihydroxyvitamin D3 in the immune system

Interleukin (IL)-2 knockout (KO) mice, which spontaneously develop symptoms of inflammatory bowel disease similar to ulcerative colitis in humans, were made vitamin D deficient (D-) or vitamin D sufficient (D+) or were supplemented with 1,25-dihydroxyvitamin D(3) (1,25D3). 1,25-Dihydroxyvitamin D3 supplementation, but not vitamin D supplementation, reduced the early mortality of IL-2 KO mice. However, colitis severity was not different in D-, D+, or 1,25D3 IL-2 KO mice. Cells from D- IL-2 KO mice produced more interferon (IFN)-gamma than cells from all other mice. Con A-induced proliferation was upregulated in IL-2 KO mice and downregulated in wildtype (WT) mice fed 1,25D3. All other measured immune responses in cells from IL-2 KO mice were unchanged by vitamin D status. In vitro addition of 1,25-dihydroxyvitamin D3 significantly reduced the production of IL-10 and IFN-gamma in cells from D- and D+ WT mice. Conversely, IFN-gamma and IL-10 production in cells from IL-2 KO mice were refractory to in vitro 1,25-dihydroxyvitamin D3 treatments. In the absence of IL-2, vitamin D was ineffective for suppressing colitis and ineffective for the in vitro downregulation of IL-10 or IFN-gamma production. One target of 1,25-dihydroxyvitamin D3 in the immune system is the IL-2 gene.     

T cell replacing factor for steroids (TRF-S): a 40,000 dalton protein produced by a T4+ T cell

The induction of polyclonal immunoglobulin (Ig) synthesis by glucocorticosteroids (GCS) in human peripheral blood lymphocytes is dependent on both T cells and monocytes. T cells can be replaced by a cytokine, T cell replacing factor for steroids (TRF-S), which promotes GCS-induced Ig production. T cells produce the cytokine when cultured with intact monocytes, with 24 hr monocyte supernatants, or with small quantities (0.1 U/ml or more) of highly purified interleukin 1 (IL 1). TRF-S was produced by isolated T4+ cells, whereas isolated T8+ cells were unable to help GCS-induced Ig synthesis. High pressure liquid chromatography with a gel permeation column revealed a single locus of activity that corresponded to an apparent m.w. of 40,000. At the dilutions utilized in culture, supernatants containing optimal TRF-S activity (3 U/ml final concentration in culture) were found to have less than 0.2 U/ml (final concentration) of interleukin 2 (IL 2) activity. Neither recombinant IL 2 nor recombinant interferon-gamma (IFN-gamma) over a broad range of concentrations was able to reproduce the capacity of TRF-S to induce the development of Ig-secreting cells with GCS. Thus, we report that TRF-S is synthesized primarily by T4+ T cells, and that its production is stimulated by small concentrations of IL 1. The apparent m.w. of TRF-S is 40,000, and its biological activity is distinct from that of IL 1, IL 2, and IFN-gamma.