Cloning of a murine IL-11 receptor alpha-chain; requirement for gp130 for high affinity binding and signal transduction.

An adult mouse liver cDNA library was screened with oligonucleotides corresponding to the conserved WSXWS motif of the haemopoietin receptor family. Using this method, cDNA clones encoding a novel receptor were isolated. The new receptor, named NR1, was most similar in sequence and predicted structure to the alpha-chain of the IL-6 receptor and mRNA was expressed in the 3T3-L1 pre-adipocytic cell line and in a range of primary tissues. Expression of NR1 in the factor-dependent haemopoietic cell line Ba/F3 resulted in the generation of low affinity receptors for IL-11 (Kd approximately 10 nM). The capacity to bind IL-11 with high affinity (Kd = 300-800 pM) appeared to require coexpression of both NR1 and gp130, the common subunit of the IL-6, leukaemia inhibitory factor (LIF), oncostatin M (OSM) and ciliary neurotrophic factor (CNTF) receptors. The expression of both NR1 and gp130 was also necessary for Ba/F3 cells to proliferate and M1 cells to undergo macrophage differentiation in response to IL-11.     

Acute upregulation of interleukin-1 receptor by ligand.

In this study we have investigated the effect that interleukin 1 (IL-1) has on cell surface IL-1 receptor expression in the murine thymoma cell line, EL4 6.1. These cells express IL-1 receptors with both high affinity (Kd = 65 pM, 986 receptors/cell) and low affinity (Kd = 14.5 nM, 10,417 receptors/cell). The high- and low-affinity receptors are indistinguishable by crosslinking studies performed at both high and low ligand concentrations. However, the two affinity states could be functionally distinguished on the basis of their internalization of ligand. Receptor-mediated endocytosis was dependent upon the concentration of ligand bound to the cells. In the presence of low IL-1 concentrations receptor-mediated endocytosis was slow, whereas at high IL-1 concentrations, endocytosis was more rapid. Furthermore, receptor-mediated endocytosis of IL-1 did not result in downregulation of surface IL-1 receptors. Indeed, both kinetic and equilibrium binding studies revealed that pre-incubation of cells with IL-1 alpha resulted in an acute upregulation of 125IL-1 alpha binding to high affinity surface receptors in a time and energy dependent manner. Examination of the association kinetics suggested that increased binding was not attributable to positive co-operativity of the high affinity IL-1 receptor, but was due to increasing IL-1 receptor number. This observation was confirmed by equilibrium binding studies. Moreover, receptor numbers were not enhanced by de novo synthesis, nor release of receptors from an intracellular pool. The observed increases in surface ligand binding were most probably due to conversion of the surface pool of low affinity receptors into high affinity receptors.     

Induction of IL-5 receptors on normal B cells by cross-linking surface Ig with anti-Ig-dextran.

Regulation of IL-5R expression in normal, non-Ly-1 (CD5) B cells was evaluated. Freshly isolated unfractionated spleen B cells express little or no detectable IL-5R. In contrast, B cells stimulated with anti-Ig-dextran conjugates express substantial numbers of IL-5R. Phenotypic analysis of the B cells responding to anti-Ig-dextran, and expressing IL-5R, demonstrates that these cells do not express Ly-1 or Mac-1. Scatchard analysis of B cells stimulated with anti-IgD-dextran reveals two classes of IL-5R: a high affinity receptor with a Kd of 17 pM and approximately 300 receptors/cell, and a low affinity receptor with a Kd of 0.6 nM and approximately 1000 receptors/cell. Peak receptor expression in response to anti-IgD-dextran is seen 72 h after stimulation and with a dose of 10 ng/ml. The induced receptors are functional, because both proliferation and Ig secretion by B cells treated with anti-IgD-dextran are enhanced by IL-5. Other B cell mitogens such as LPS, soluble anti-Ig/IL-4, or phorbol esters/ionomycin are poor inducers of the IL-5R. Finally, not only does LPS fail to induce significant IL-5R expression on spleen B cells, it suppresses both high and low affinity IL-5R expression induced by anti-IgD-dextran. These data indicate that normal, non-Ly-1 B cells are capable of expressing both high and low affinity IL-5R but that receptor expression is critically dependent on the type of stimulus provided to the B cell. A stimulus that produces extensive cross-linking of surface Ig on B cells, i.e., anti-Ig-dextran, is very effective in inducing IL-5R whereas a variety of other B cell mitogens are ineffective.     

Oncostatin M is a differentiation factor for myeloid leukemia cells.

Oncostatin M (OSM) is a 28-kDa glycoprotein produced by stimulated macrophages and T lymphocytes that inhibits the proliferation of a number of different cell lines derived from solid tumors. Analysis of both amino acid sequence and gene structure has demonstrated that OSM is a member of a cytokine family that includes leukemia inhibitory factor (LIF), IL-6, and granulocyte colony-stimulating factor (G-CSF). We demonstrate that, like LIF, IL-6 and G-CSF, OSM can induce the differentiation of the myeloblastic M1 murine leukemia cells into macrophage-like cells. The morphologic and functional changes induced by OSM are more similar to those observed with LIF and IL-6 than those induced with G-CSF. OSM can also induce the differentiation of the histiocytic U937 human leukemia cells in the presence of granulocyte-macrophage CSF, a property shared with LIF and IL-6. In murine M1 cells, binding of labeled OSM is completely inhibited by excess LIF or OSM, reflecting the binding of OSM to the high affinity form of the murine LIF receptor. In contrast, the binding of labeled OSM to human U937 leukemia cells is inhibited by OSM, but the inhibition by LIF is significantly less. These results suggest that, in human leukemia cells, OSM may act through the LIF receptor and an OSM-specific receptor. The existence of an OSM-specific receptor was confirmed by both growth inhibition and competition binding assays on A375 human melanoma cells. The growth of human A375 cells was inhibited by OSM and IL-6 but not LIF or G-CSF. Neither LIF, G-CSF, nor IL-6 could compete with the binding of labeled OSM to A375 cells.     

Induction of tumor necrosis factor-alpha and its receptors during differentiation in myeloid leukemic cells along the monocytic pathway. A possible regulatory mechanism for TNF-alpha production

We examined the characteristics of tumor necrosis factor (TNF) receptors expressed on immature mouse myeloid leukemic cells (M1), M1 cells induced to differentiate into macrophages, and macrophage cells (Mm1 cells) by binding studies with radioiodinated TNF. Scatchard analysis of TNF binding revealed that a single class of high affinity receptor was present and that 750-1,100 receptors were expressed on each immature M1 cell. The number of TNF receptors was increased 1.5-2-fold on differentiated M1 cells and 4-5-fold on Mm1 cells with no change in affinity. The addition of interferon-gamma (IFN-gamma) up-regulated the expression of TNF receptors in differentiated M1 cells and Mm1 cells, while immature M1 cells were insensitive to IFN-gamma. The number of TNF receptors on the differentiated cells was increased 4-5-fold by the treatment with IFN-gamma with no change in the binding constant. The affinity of TNF receptors to human TNF-alpha (Kd = 1.7-2.8 nM) was lower than that to murine TNF-alpha (Kd = 0.2-0.7 nM). The assays for cell growth and [3H]thymidine incorporation suggested that no relation exists between the sensitivity of the cells to TNF-alpha and the number of TNF receptors. Enhancement of TNF-mediated cytotoxicity by the treatment with IFN-gamma did not correlate with increases in the number of TNF receptors. Cytolytic assays using L929 cells demonstrated that the amount of constitutive and lipopolysaccharide (LPS)-induced secretion of TNF-alpha was markedly increased during differentiation. Both the constitutive expression and IFN-gamma-mediated superinduction of TNF receptors, and the constitutive and LPS-induced secretion of TNF-alpha were closely related to the extent of cellular differentiation along the monocytic pathway. The time course of LPS-induced TNF-alpha activity showed a rise-and-decline profile with a peak at 2 h. On the other hand, the time course of the number of cell surface TNF receptors showed a decline-and-rise profile, a mirror image of the TNF-alpha activity time course profile in the supernatant. Anti-TNF-alpha antibody treatment blocked the LPS-induced down-regulation of TNF receptors and increased TNF-alpha mRNA accumulation. We discussed "an autoinhibitory system" in which an internalization of secreted TNF-alpha mediated by its own receptors is involved not only in decreasing TNF-alpha activity in the supernatant but also in reducing TNF-alpha mRNA expression.     

Interleukin-6- and leukemia inhibitory factor-induced terminal differentiation of myeloid leukemia cells is blocked at an intermediate stage by constitutive c-myc.

Interleukin-6 (IL-6) and leukemia inhibitory factor (LIF), two multifunctional cytokines, recently have been identified as physiological inducers of hematopoietic cell differentiation which also induce terminal differentiation and growth arrest of the myeloblastic leukemic M1 cell line. In this work, it is shown that c-myc exhibited a unique pattern of expression upon induction of M1 terminal differentiation by LIF or IL-6, with an early transient increase followed by a decrease to control levels by 12 h and no detectable c-myc mRNA by 1 day; in contrast, c-myb expression was rapidly suppressed, with no detectable c-myb mRNA by 12 h. Vectors containing the c-myc gene under control of the beta-actin gene promoter were transfected into M1 cells to obtain M1myc cell lines which constitutively synthesized c-myc. Deregulated and continued expression of c-myc blocked terminal differentiation induced by IL-6 or LIF at an intermediate stage in the progression from immature blasts to mature macrophages, precisely at the point in time when c-myc is normally suppressed, leading to intermediate-stage myeloid cells which continued to proliferate in the absence of c-myb expression.     

IL-4 blocks the up-regulation of IL-2 receptors induced by IL-2 in normal human B cells

A negative influence of IL-4 on the IL-2-induced B cell proliferation and differentiation has recently been reported. In this study, we have further investigated a role of IL-4 on human tonsillar B cell proliferation and IL-2R expression. IL-4 enhanced Staphylococcus aureus Cowan 1 strain (SAC)-induced B cell proliferation, reaching the peak on day 3. However, from day 4, IL-4 inhibited IL-2-induced proliferation. In the cross-linking study, IL-4 enhanced the density of 125I-IL-2-binding protein at low affinity binding condition (2 nM of 125I-IL-2) in SAC-activated B cells. However, IL-4 blocked the enhancement in the density of 125I-IL-2-binding proteins induced by IL-2, from day 3, in both high (50 pM of 125I-IL-2) and low affinity binding conditions, suggesting that IL-4 is able to block IL-2-induced IL-2R up-regulation. This was confirmed by a binding study: B cells that cultured for 3 days with SAC plus IL-2 expressed an average of 180 +/- 20 high affinity receptors/cell with a Kd of 12 pM and 5800 +/- 500 low affinity receptors/cell with a Kd of 980 pM. By coculturing with IL-4, high affinity receptors were almost undetectable and the expression of low affinity receptors was reduced by more than 80%. IL-4-mediated inhibition of IL-2-induced IL-2R expression does not seem to be due to the direct interaction between IL-4 and cell surface receptors, inasmuch as preincubation of cells with IL-4 for 60 min at 37 degrees C did not alter the binding of 125I-IL-2 to cells previously cultured for 3 days with SAC plus IL-2. These data suggest that IL-4 has a capacity to block the up-regulation of the high as well as low affinity IL-2R-induced by IL-2 in normal human B cells, and could provide a possible explanation for the decreased responsiveness of B cells to IL-2 in the presence of IL-4.     

Expression of IL-1 receptors on human peripheral B cells

The expression of IL-1R on human peripheral B cells was analyzed by the binding assay with 125I-labeled human rIL-1 alpha and by the flow cytofluorometry by the use of FITC-conjugated IL-1 alpha. The proliferation and the differentiation of B cells stimulated with Staphylococcus aureus Cowan I (SAC) in the presence of T cell-derived factors were dependent on IL-1. By the binding experiment with 125I-labeled IL-1 alpha, B cells expressed only few IL-1R without any stimulations. When they were stimulated with SAC, IL-1R on B cells began to increase by only 1 h, reached the maximum level at 6 h. The binding of 125I-labeled IL-1 alpha to B cells was inhibited by the addition of either cold IL-1 alpha or IL-1 beta suggesting that IL-1R on B cells reactive for IL-1 alpha and IL-1 beta were identical. By Scatchard plot analysis, the existence of two classes of IL-1R on B cells was found. A major class of IL-1R (320 molecules/cell) has a lower affinity (Kd = 3.8 x 10(-10) M) and a minor class of IL-1R (70 molecules/cell) has a higher affinity (Kd = 4.4 x 10(-12) M). When B cells were stimulated with SAC, both lower and higher affinity IL-1R were increased to 1960 molecules/cell and 300 molecules/cell, respectively. Furthermore, IL-1R on B cells were also detected with FITC-conjugated IL-1 alpha by a flow cytofluorometer. Only 3 to 5% of B cells expressed IL-1R without any stimulations. When B cells were stimulated with SAC, IL-1R-positive B cells were increased to 20%. The addition of anti-class II antibodies inhibited B cell proliferation and differentiation induced with SAC, IL-1, and T cell-derived factors. Anti-class II antibodies also inhibited the number of IL-1R on B cells. These results suggest that the expression of IL-1R was induced as the initial stage of B cell activation and that class II Ag play an important role for the expression of IL-1R on B cells.     

Interleukin-6 receptor specific RNA aptamers for cargo delivery into target cells

Aptamers represent an emerging strategy to deliver cargo molecules, including dyes, drugs, proteins or even genes, into specific target cells. Upon binding to specific cell surface receptors aptamers can be internalized, for example by macropinocytosis or receptor mediated endocytosis. Here we report the in vitro selection and characterization of RNA aptamers with high affinity (Kd = 20 nM) and specificity for the human IL-6 receptor (IL-6R). Importantly, these aptamers trigger uptake without compromising the interaction of IL-6R with its natural ligands the cytokine IL-6 and glycoprotein 130 (gp130). We further optimized the aptamers to obtain a shortened, only 19-nt RNA oligonucleotide retaining all necessary characteristics for high affinity and selective recognition of IL-6R on cell surfaces. Upon incubation with IL-6R presenting cells this aptamer was rapidly internalized. Importantly, we could use our aptamer, to deliver bulky cargos, exemplified by fluorescently labeled streptavidin, into IL-6R presenting cells, thereby setting the stage for an aptamer-mediated escort of drug molecules to diseased cell populations or tissues.     

Stat3-dependent induction of interleukin-3 receptor expression in leukemia inhibitory factor-stimulated M1 mouse leukemia cells

M1 mouse leukemia cells differentiate to macrophages/monocytes by the stimulation of interleukin-6 (IL-6)/leukemia inhibitory factor (LIF). To identify new LIF-induced genes, we have performed representational difference analysis using M1 cells and cloned mouse interleukin-3 (IL-3) receptor beta subunit gene. The mRNA expression of both IL-3 receptor (IL-3R) alpha and beta subunits is upregulated after 1 h stimulation of LIF and remains to be elevated along the differentiation of M1 cells. This induction is almost completely suppressed in M1 cells expressing a dominant negative form of Stat3. Furthermore, we show that IL-3-induced Stat5 phosphorylation increases in LIF-stimulated M1 cells. These results suggest that Stat3 may play a role in the differentiation of myeloid cells by regulating IL-3R expression.     

Internalization of human interleukin 4 and transient down-regulation of its receptor in the CD23-inducible Jijoye cells

Human interleukin 4 (IL-4) specifically induces the low affinity receptor for IgE (Fc epsilon R2/CD23) on the surface of the Burkitt lymphoma cell line Jijoye. At 4 degrees C 125I-IL-4 specifically binds to high affinity receptors (Kd = 4-10 x 10(-11) M; Bmax, 600-1,200 sites/cell). Following a rapid temperature shift from 4 to 37 degrees C, 80% of the receptor-bound 125I-IL-4 disappeared from the cell surface within 20 min (t1/2 = 8.9 min). For every two internalized molecules of IL-4 (t1/2 = 13 min), one molecule of IL-4 dissociated from the cell surface (t1/2 = 25 min). More than 90% of the internalized IL-4 was released in a degraded form into the medium following first order kinetics (t1/2 = 68 min). Internalization was inhibited by cytoskeletal disrupting and lysosomotropic agents. Incubating cells with 1 nM IL-4 resulted in a rapid down-regulation of IL-4 receptors (75% loss after 2 h); a reexpression of receptor to control level occurred after 20 h in spite of the presence of a large excess of IL-4. Reexpression was delayed by chloroquine and blocked by cycloheximide and actinomycin D. By using the cross-linking agent bis(sulfosuccinimidyl)suberate, three polypeptides of Mr 130,000, 80,000, and 70,000 were specifically labeled with 125I-IL-4. These three polypeptides coordinately disappeared and reappeared with the 125I-IL-4 binding sites. The induction of Fc epsilon R2/CD23 required prolonged incubation (greater than 8 h) with IL-4 and thus may be dependent on the reexpression of IL-4 receptor.     

Characterization of the human IL-5 receptors on eosinophils

Interleukin 5 (IL-5) receptors on the cell surface of human eosinophils and other hematopoietic cells were characterized using radiolabeled recombinant IL-5. The binding of 35S-labeled murine IL-5 to eosinophils from normal human peripheral blood was rapid and saturable within a 30-min incubation at both 4 and 37 degrees C. The binding of 35S-labeled murine IL-5 to eosinophils was inhibited by an excess of unlabeled murine and human IL-5 or by an anti-murine IL-5 monoclonal antibody (NC17) but not by other human cytokines. Scatchard plot analysis revealed that human eosinophils have a single class of high affinity receptor (Kd 170-330 pM; number of binding sites: 260-380/cell). IL-5 receptors on eosinophils from four patients with eosinophilia displayed similar characteristics. Affinity cross-linking experiments resulted in the identification of human IL-5 receptor on eosinophils with a molecular mass of 55-60 kDa. Among the various cells besides eosinophils and cell lines that we could test, a subline of HL-60 (YY-1 cells) was found to display a significant number of IL-5 receptor. These results suggest that IL-5 may act on limited types of cells in the human system.     

Stimulation of osteoclast differentiation in vitro by mouse oncostatin M, leukaemia inhibitory factor, cardiotrophin-1 and interleukin 6: synergy with dexamethasone

The role of oncostatin M in bone metabolism is not clearly defined, and the actions of mouse oncostatin M (mOSM) on osteoclast development has not been previously determined. We therefore examined the ability of recombinant mOSM to stimulate osteoclast formation and activity using cocultures of murine calvaria and bone marrow cells, and compared the responses to other members of the interleukin 6 family of cytokines including mouse leukaemia inhibitory factor (LIF), cardiotrophin-1 (CT-1) and IL-6. Mouse OSM, LIF and CT-1 strongly induced the formation of tartrate resistant acid phosphatase positive (TRAP(+)) multinucleated cells (MNC) in a dose-dependent fashion. OSM, LIF or CT-1 also elevated the number and size of resorptive pits when cocultures were added to smooth cortical bone slices, indicating enhancement of osteoclast activity. The activity of OSM was reduced by indomethacin (10(-8)-10(-6) M), whereas addition of dexamethasone (DEX) at 10(-7)-10(-5) M synergistically enhanced OSM-induced numbers of TRAP(+)MNC. DEX (10(-7) M) costimulation also synergistically enhanced TRAP(+)cell numbers of LIF, and CT-1 treated cocultures. IL-6 had no activity alone, but further enhanced TRAP(+)cell formation in mOSM or DEX (10(-7) M) treated cocultures. When added to mouse calvarial osteoblast cultures, mOSM induced secretion of IL-6 protein and elevation of mRNA whereas LIF or CT-1 did not. IL-6 mRNA levels and protein secretion were reduced in osteoblasts by costimulation with DEX. These results show that mouse OSM, LIF and CT-1 induce osteoclast differentiation and activation, that DEX synergizes with each in this activity, and that mouse OSM induces responses in osteoblasts that are not shown by LIF or CT-1. Collectively these data suggest an important role of these cytokines in osteoporosis caused by high levels of corticosteroid.     

Two distinct affinity binding sites for IL-1 on human cell lines

We used two human cell lines, NK-like YT-C3 and an EBV-containing B cell line, 3B6, as models to study the receptor(s) for IL-1. Two distinct types of saturable binding sites were found on both cell lines at 37 degrees C. Between 1 pM and 100 pM of 125I-IL-1-alpha concentration, saturable binding sites were detected on the YT-C3 cells with a K of 4 x 10(-11) M. The K found for the IL-1-alpha binding sites on 3B6 cells was 7.5 x 10(-11) M. An additional binding curve was detected above 100 pM on YT-C3 cells with a K of 7 x 10(-9) M and on 3B6 cells with a K of 5 x 10(-9) M. Scatchard plot analysis revealed 600 sites/cell with high affinity binding and 7000 sites/cell with low affinity for YT-C3 cells and 300 sites/cell with high affinity binding and 6000 sites/cell with low affinity for 3B6 cells. At 37 degrees C, the internalization of 125I-labeled IL-1 occurred via both high and low affinity IL-1R on both YT-C3 and 3B6 cells, whereas the rates of internalization for high affinity binding sites on YT-C3 cells were predominant in comparison to that of low affinity binding sites. In chemical cross-linking studies of 125I-IL-1-alpha to 3B6 and YT-C3 cells, two protein bands were immunoprecipitated with Mr around 85 to 90 kDa leading to an estimation of the Mr of the IL-1R around 68 to 72 kDa. In similar experiments, the Mr found for the IL-1R expressed on the murine T cell line EL4 was slightly higher (around 80 kDa). Whether these distinct affinity binding sites are shared by a single molecule or by various chains remains to be elucidated.     

Analysis of interleukin 5 receptors on murine eosinophils: a comparison with receptors on B13 cells

The interleukin 5 receptor (IL-5R) on murine eosinophils and a mouse B cell line (B13) was investigated using iodinated murine IL-5 produced in the baculovirus system. Electrophoretic analysis of this recombinant protein identified a range of bands Mr 26,000 to 32,000 resulting from differential glycosylation. The specific activity and binding kinetics of the iodinated IL-5 (125I-IL-5) were essentially identical to unlabeled material. Both high-affinity (Kd approximately 50 pM) and low-affinity (Kd approximately 1 nM) receptor populations were identified on murine eosinophils. Approximately 50 high-affinity receptors and 10,000 low-affinity receptors were present. This was compared with approximately 2,000 high-affinity (Kd approximately 80 pM) and about 8,000 low-affinity (Kd approximately 3 nM) sites on B13 cells. An antibody that inhibits IL-5 binding to, and proliferation of, B13 cells (R52.120) was also shown to inhibit eosinophil proliferation, suggesting that eosinophils and B cells bear the equivalent IL-5 binding proteins.     

Characterization of two high affinity human interleukin-8 receptors.

Interleukin 8 (IL-8) and melanocyte growth-stimulatory activity/gro (MGSA) are structurally related proinflammatory cytokines that are chemoattractants and activators of neutrophils. Recently, cDNA clones encoding a high affinity IL-8 receptor (IL-8R-A) and a "low affinity" IL-8 receptor (IL-8R-B) have been isolated from human cDNA libraries. These two receptors have 77% amino acid identity and are members of the G protein-coupled superfamily of receptors with seven transmembrane domains. We have expressed these two receptors in mammalian cells and find that in this system both receptors bind IL-8 with high affinity (Kd approximately 2 nM). The receptor affinities differ for MGSA, however. IL-8R-A binds MGSA with low affinity (Kd approximately 450 nM); IL-8R-B binds MGSA with high affinity (Kd approximately 2 nM). The transfected cells respond to ligand binding with a transient increase in the intracellular Ca2+ concentration. A Ca2+ response is found for IL-8R-A following the binding of IL-8; no response is found for MGSA. A Ca2+ response for IL-8R-B follows the binding of both ligands. Blot hybridization with oligonucleotide probes specific for the two receptors shows that mRNA for both receptors is present in human neutrophils. Analysis of IL-8 and MGSA binding data on neutrophils as well as Ca2+ response and desensitization data shows that the presence of these two IL-8 receptors on the cell surface can account for the profile of these two ligands on neutrophils.