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ABSTRACT: Alternative splicing of the interleukin-5 receptor alpha (IL-5Ralpha)-subunit leads to the generation of a signalling, membrane-anchored (TM) isoform, or a secreted [soluble (SOL)], antagonistic variant. Given the key role of IL-5 in eosinophil function, we investigated SOL IL-5Ralpha expression pattern in an eosinophil-associated disease such as nasal polyposis (NP).
An SOL IL-5Ralpha enzyme-linked immunosorbent assay and quantitative real-time polymerase chain reaction (PCR) were established and applied in serum, nasal secretion and nasal tissue of controls (n = 12), and NP patients (n = 42) with or without asthma.
Analysis of serum, nasal secretion, and nasal tissue samples revealed that SOL IL-5Ralpha protein concentrations were significantly increased in NP vs control tissue. Within the NP group, there was a significant up-regulation of SOL IL-5Ralpha in patients with systemic airway disease. These findings were confirmed at the mRNA level, using an optimized real-time reverse-transcriptase PCR procedure.
This report demonstrates SOL IL-5Ralpha transcript and protein up-regulation in NP. Soluble IL-5Ralpha differentiates nasal polyps with or without concomitant asthma. As SOL IL-5Ralpha is strongly up-regulated for disease and has antagonistic properties in vitro, our studies shed new light on the mechanisms of specific immunomodulatory therapies, such as anti-IL-5.
Allergy 06/2003; 58(5):371-9. · 6.27 Impact Factor
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ABSTRACT: Identifying novel targets for therapy in allergic disease: protein interactions inside the cell Therapy of allergic disease currently relies on pharmacological manipulation of mediators or immunotherapy. Drugs have been developed to target specific mediators and their receptors: for example antihistamines blocking the H1 receptor have been refined to maximize antagonism and reduce central side-effects or adverse effects of activity on other receptors such as muscarinic cholinergic receptors. Traditional pharmacological approaches identify new surface receptors against which chemists will then design or screen compounds for activity: examples are H3 or H4 histamine receptors. With the advent of the sequenced human genome we are faced with a vast array of genes and proteins that interact to define normal physiology or indeed pathology. A major challenge to biotechnology is to evolve novel techniques to understand the function and interaction of these myriad proteins. One particular area of current interest is the signalling cascades downstream of surface receptors. For many years pathways have appeared overlapping and to offer little chance of specific intervention. However, greater understanding of the complexity and integration of signalling, together with the possibility of directing drugs to specific cells has aroused considerable interest in this area for novel therapeutics. Indeed, targeting events within the cell has been done for many years with steroids. Here, Jan Tavernier and colleagues describe some signalling pathways relevant to allergic disease and potential methods for understanding protein interactions that allow mapping of the cascades. In particular they describe an elegant new system of analysis of protein-protein interactions in a mammalian system, which they have developed, termed MAPPIT. The basis of the system is an engineered receptor with JAK kinase but which lacks STAT activation sites. To the cytoplasmic end of the receptor is added a bait protein of interest, and the cell line can then be transduced with plasmid containing 'prey' cDNA from a library of interest linked to an active STAT binding site. If this cDNA encodes a protein which, upon expression, is activated and recruited to the membrane complex, it will bind to the receptor via the bait, then STAT activation will occur and activate a reporter gene system such as luciferase or puromycin resistance. This novel system allows study of known protein-protein interactions by targeted mutagenesis, or screening for novel interactions. It has the advantage over existing systems such as yeast 2 hybrid that it uses mammalian cells and thus can reproduce the physiological conditions for protein processing or activation. As new genes and proteins are linked to the atopic phenotypes, systems such as this hold promise of rapidly defining their function and interacting proteins and may be important in linking genomics and proteomics with function and pharmacology in the future.
Clinical & Experimental Allergy 11/2002; 32(10):1397-404. · 5.03 Impact Factor
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ABSTRACT: IL-5 is a major determinant in the survival, differentiation and effector-functions of eosinophils. It mediates its effect upon binding and activation of a membrane bound receptor (R), composed of a ligand-specific alpha-chain and a beta-chain, shared with the receptors for IL-3 and granulocyte-macrophage colony-stimulating factor. We have generated and mapped the epitopes of three monoclonal antibodies (mAb) directed against this cytokine: the strong neutralizing mAb 5A5 and 1E1, and the very weak neutralizing mAb H30. We found that H30 as well as 5A5 can increase proliferation above the level induced by human (h)IL-5 alone, in a JAK-2-dependent manner, and at every sub-optimal hIL-5 concentration analyzed. This effect is dependent on mAb-mediated cross-linking of IL-5R complexes, and is only observed on cell lines expressing a hybrid human/mouse IL-5Ralpha-chain. We discuss these findings in view of the stoichiometric and topological requirements for an activated IL-5R. Since humanized anti-IL-5 mAb are currently in clinical testing, our findings imply that such mAb should be carefully evaluated for their potentiating effects.
European Journal of Immunology 05/2001; 31(4):1087-97. · 5.10 Impact Factor
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ABSTRACT: The receptor for interleukin 5 (IL-5) consists of a cytokine-specific alpha chain (IL-5Ralpha) and a signaling beta chain, which is shared with interleukin 3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF). These 3 cytokines can act in eosinophil development and activation in vitro, but gene deletion or antibody blocking of IL-5 largely ablates eosinophilic responses in models of allergic disease or helminth infection. We investigated factors acting in differential IL-5Ralpha gene splicing to generate either the membrane-anchored isoform (TM-IL-5Ralpha) which associates with the common beta chain to allow IL-5 responsiveness, or a secreted, antagonist variant (SOL-IL-5Ralpha). In a murine myeloid cell line (FDC-P1), transfected with minigenes allowing expression of either IL-5Ralpha variant, IL-5 itself, but not IL-3 or GM-CSF, stimulated a reversible switch toward expression of TM-IL-5Ralpha. A switch from predominantly soluble isoform to TM-IL-5Ralpha messenger RNA (mRNA) expression was also seen during IL-5-driven eosinophil development from human umbilical cord blood-derived CD34(+) cells; this was accompanied by surface expression of IL-5Ralpha and acquisition of functional responses to IL-5. IL-3 and GM-CSF also supported eosinophil development and up-regulation of TM-IL-5Ralpha mRNA in this system, but this was preceded by expression of IL-5 mRNA and was inhibited by monoclonal antibody to IL-5. These data suggest IL-5-specific signaling, not shared by IL-3 and GM-CSF, leading to a switch toward up-regulation of functional IL-5Ralpha and, furthermore, that IL-3 and GM-CSF-driven eosinophil development is dependent on IL-5, providing an explanation for the selective requirement of IL-5 for expansion of the eosinophil lineage. (Blood. 2000;95:1600-1607)
Blood 04/2000; 95(5):1600-7. · 9.90 Impact Factor
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ABSTRACT: The human interleukin-5 (IL-5) receptor consists of an alpha-chain that specifically binds the ligand with intermediate affinity, and a beta c-chain, that associates with the IL-5/IL-5R alpha complex, leading to a high-affinity, signal transducing receptor complex. Structure-function studies showed that modification of the putative beta c-chain binding site in IL-5 (E13Q mutein) converted the molecule into an antagonist. However, analysis of the effect of this mutant IL-5 on COS-1 cells transfected with both receptor subunits, did not show reduced interaction with the beta c subunit [Tavernier, J., Tuypens, T., Verhee, A., Plaetinck, G., Devos, R., Van der Heyden, J., Guisez, Y. & Oefner, C. (1995) Proc. Natl Acad. Sci. USA 89, 7041-7045]. To gain more insight into the mechanism of IL-5 antagonism by E13Q, we tested its biological activity on two FDC-P1 subclones that express clearly different numbers of alpha-subunits yet an almost constant number of murine beta c-subunits. Here we show that E13Q has a biological activity comparable to wild-type IL-5 only when a high number of alpha-chains is present on the cells. Confirming the critical role of the IL5R alpha cell-surface expression level, treatment with suboptimal doses of a neutralising anti-IL-5R alpha antibody results in reduced activity of the mutant but not of wild-type IL-5.
European Journal of Biochemistry 03/1999; 259(3):954-60. · 3.58 Impact Factor
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Y Guisez,
I Faché,
L A Campfield,
F J Smith,
A Farid,
G Plaetinck, J Van der Heyden,
J Tavernier,
W Fiers,
P Burn,
R Devos
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ABSTRACT: The genes encoding the mature forms of mouse (mOB) and human OB (hOB) protein (also called leptin) were fused to the secretion signal coding sequence of the Escherichia coli outer membrane protein A (sOMP A). The hybrid genes were preceded by a ribosome binding site (RBS) and were expressed under transcriptional control of both the lipoprotein promoter (Plpp) and the lac promoter-operator (POlac). The recombinant fusion proteins were efficiently expressed and exported into the periplasmic compartment of E. coli cells from where they were recovered by osmotic shock as soluble mature polypeptides with the sOMP A precisely removed. Recombinant mOB and hOB proteins were also produced in Sf9 insect cells using the baculovirus expression system. Milligram quantities of both proteins were purified to homogeneity using ion-exchange, hydrophobic interaction chromatography and gel filtration and were found to be biologically active and to have antiobesity effects upon testing in genetically obese ob/ob mice.
Protein Expression and Purification 04/1998; 12(2):249-58. · 1.59 Impact Factor
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ABSTRACT: The leptin receptor is a class I transmembrane protein with either a short or a long cytoplasmic domain. Using chemical cross-linking we have analyzed the binding of leptin to its receptor. Cross-linking of radiolabeled leptin to different isoforms of the leptin receptor expressed on COS-1 cells reveals leptin receptor monomer, homodimer, and oligomer complexes. Cotransfection of the long and short form of the leptin receptor did not provide any evidence for the formation of heterodimer complexes. Soluble forms consisting of either the entire extracellular domain or the two cytokine receptor homologous domains of the leptin receptor were purified to homogeneity from recombinant baculovirus-infected insect cells by leptin affinity chromatography. Gel filtration chromatography showed that these proteins exist in a dimeric form. Analysis of the complex formed between soluble leptin receptor and leptin by native polyacrylamide gel electrophoresis, and data obtained from the amino acid composition of the complex provide direct evidence that the extracellular domain of the leptin receptor binds leptin in a 1:1 ratio.
Journal of Biological Chemistry 08/1997; 272(29):18304-10. · 4.77 Impact Factor
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ABSTRACT: Leptin, a fat secreted hormone, regulates ingestive behaviour and energy balance by binding to a specific receptor. Using site-directed mutagenesis, we screened for single amino acid residues in human leptin which are critical for receptor binding and biological activity. Here we report that one of these mutants has in vivo antagonistic properties. An Arg to Gln substitution at position 128 of human leptin does not affect receptor binding but knocks out biological activity. Repeated injection of R128Q in normal C57BL/6J mice results in a progressive increase in body weight. This demonstrates that R128Q is able to interfere with the negative feedback control of endogenous leptin. This mutant could be of therapeutic use for wasting disorders, such as anorexia and cachexia, where weight gain would be beneficial.
FEBS Letters 04/1997; 405(2):237-40. · 3.54 Impact Factor
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ABSTRACT: Binding studies were conducted to identify the anatomical location of brain target sites for OB protein, the ob gene product. 125I-labeled recombinant mouse OB protein or alkaline phosphatase-OB fusion proteins were used for in vitro and in vivo binding studies. Coronal brain sections or fresh tissue from lean, obese ob/ob, and obese db/db mice as well as lean and obese Zucker rats were probed to identify potential central OB protein-binding sites. We report here that recombinant OB protein binds specifically to the choroid plexus. The binding of OB protein (either radiolabeled or the alkaline phosphatase-OB fusion protein) and its displacement by unlabeled OB protein was similar in lean, obese ob/ob, and obese db/db mice as well as lean and obese Zucker rats. These findings suggest that OB protein binds with high affinity to a specific receptor in the choroid plexus. After binding to the choroid plexus receptor, OB protein may then be transported across the blood-brain barrier into the cerebrospinal fluid. Alternatively, binding of OB protein to a specific receptor in the choroid plexus may activate afferent neural inputs to the neural network that regulates feeding behavior and energy balance or may result in the clearance or degradation of OB protein. The identification of the choroid plexus as a brain binding site for OB protein will provide the basis for the construction of expression libraries and facilitate the rapid cloning of the choroid plexus OB receptor.
Proceedings of the National Academy of Sciences 06/1996; 93(11):5668-73. · 9.68 Impact Factor
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ABSTRACT: Binding studies were conducted to identify the anatomical location of brain target sites for OB protein, the ob gene product.
125I-labeled recombinant mouse OB protein or alkaline phosphatase-OB fusion proteins were used for in vitro and in vivo binding
studies. Coronal brain sections or fresh tissue from lean, obese ob/ob, and obese db/db mice as well as lean and obese Zucker
rats were probed to identify potential central OB protein-binding sites. We report here that recombinant OB protein binds
specifically to the choroid plexus. The binding of OB protein (either radiolabeled or the alkaline phosphatase-OB fusion protein)
and its displacement by unlabeled OB protein was similar in lean, obese ob/ob, and obese db/db mice as well as lean and obese
Zucker rats. These findings suggest that OB protein binds with high affinity to a specific receptor in the choroid plexus.
After binding to the choroid plexus receptor, OB protein may then be transported across the blood-brain barrier into the cerebrospinal
fluid. Alternatively, binding of OB protein to a specific receptor in the choroid plexus may activate afferent neural inputs
to the neural network that regulates feeding behavior and energy balance or may result in the clearance or degradation of
OB protein. The identification of the choroid plexus as a brain binding site for OB protein will provide the basis for the
construction of expression libraries and facilitate the rapid cloning of the choroid plexus OB receptor.
Proceedings of the National Academy of Sciences 05/1996; 93(11):5668-5673. · 9.68 Impact Factor
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ABSTRACT: The receptor for interleukin-5 (IL-5) is composed of two different subunits. The IL-5 receptor alpha (IL-5R alpha) is required for ligand-specific binding while association with the beta-chain results in increased binding affinity. Murine IL-5 (mIL-5) has similar activity on human and murine cells, whereas human IL-5 (hIL-5) has marginal activity on murine cells. We found that the combined substitution of K84 and N108 on hIL-5 by their respective murine counterpart yields a molecule which is as potent as mIL-5 for growth stimulation of a murine cell line. Since the unidirectional species specificity is due only to the interaction with the IL-5R alpha subunit, we have used chimeric IL-5R alpha molecules to define regions of hIL-5R alpha involved in species-specific hIL-5 ligand binding. We found that this property is largely determined by the NH2-terminal module of hIL-5R alpha, and detailed analysis defined D56 and to a lesser extent E58 as important for binding. Moreover, two additional residues, D55 and Y57, were identified by alanine scanning mutagenesis within the same region. Based on the observed homology between the NH2-terminal module and the membrane proximal (WSXWS-containing) module of hIL-5R alpha we located this stretch of four amino acid residues (D55, D56, Y57 and E58) in the loop region that connects the C and D beta-strands on the proposed tertiary structure of the NH2-terminal module.(ABSTRACT TRUNCATED AT 250 WORDS)
The EMBO Journal 08/1995; 14(14):3395-402. · 9.20 Impact Factor
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ABSTRACT: Interleukin (IL)-5 binds to a cell surface receptor composed of two polypeptide chains, alpha and beta, both belonging to the hemopoietic cytokine receptor family. Mouse cells expressing common mouse beta chain (AIC2B) that were transfected with human IL-5 receptor (R)alpha cDNA proliferated in response to picomolar concentrations of human IL-5, indicating that a functional receptor was reconstituted. We show that in these cells, human (h)IL-5 as well as mouse (m)IL-3 induce tyrosine phosphorylation of beta chain and JAK 2 kinase. Phosphorylated beta receptor was co-precipitated with anti-JAK 2 antibodies, suggesting that both molecules were physically associated. IL-5 and IL-3 also induce cytosolic DNA binding activity as measured by an electrophoretic mobility shift assay using the interferon-gamma responsive region of human Fc gamma 1 gene DNA element. A deletion mutant of hIL-5R alpha lacking the cytoplasmic part could bind hIL-5 normally in association with the beta chain, but was unable to transmit a biological signal. The cytoplasmic domain was also indispensable for tyrosine phosphorylation and activation of DNA binding proteins. A membrane-proximal proline-rich element of the hIL-5R alpha cytoplasmic domain that is conserved among different members of the hemopoietic cytokine receptor family was essential for biological activity. Point mutations in this motif also knocked out IL-5-inducible JAK 2 phosphorylation.
European Journal of Immunology 08/1995; 25(7):1857-64. · 5.10 Impact Factor
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ABSTRACT: A characteristic feature of chronic allergic diseases such as asthma is the increase in eosinophil numbers in the inflamed tissue. In light of its specificity for the development of eosinophils, interleukin-5 (IL-5) is considered the most important cytokine involved in the regulation of eosinophilia. Hence, an antagonist for IL-5 activity is a new target for drug discovery programs. We have examined the opportunity for both a random and a rational approach for the identification of such an antagonist. The elucidation of the structure of IL-5 and the initial structure/function analysis of the ligand/receptor complex constitute a first step towards the design of antagonistic compounds. The identification of a small compound by random screening able to inhibit the IL-5/IL-5 receptor interaction indicated an important domain in the receptor. We examine here protein-based IL-5 antagonists, such as IL-5-muteins, soluble IL-5 receptor constructs, and monoclonal antibodies, for their potential as IL-5/IL-5 receptor antagonists, and the use of a murine model of eosinophil airway inflammation for their evaluation.
Journal of Leukocyte Biology 07/1995; 57(6):813-9. · 4.99 Impact Factor
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ABSTRACT: A detailed structure-function analysis of human interleukin 5 (hIL5) has been performed. The hIL5 receptor is composed of two different polypeptide chains, the alpha and beta subunits. The alpha subunit alone is sufficient for ligand binding, but association with the beta subunit leads to a 2- to 3-fold increase in binding affinity. The beta chain is shared with the receptors for IL3 and granulocyte/macrophage-colony-stimulating factor--hence the descriptor beta C (C for common). All hIL5 mutants were analyzed in a solid-phase binding assay for hIL5R alpha interaction and in a proliferation assay using IL5-dependent cell lines for receptor-complex activation. Most residues affecting binding to the receptor alpha subunit were clustered in a loop connecting beta-strand 1 and helix B (mutants H38A, K39A, and H41A), in beta-strand 2 (E89A and R91A; weaker effect for E90A) and close to the C terminus (T109A, E110A, W111S, and I112A). Mutations at one position, E13 (Glu13), caused a reduced activation of the hIL5 receptor complex. In the case of E13Q, only 0.05% bioactivity was detected on a hIL5-responsive subclone of the mouse promyelocytic cell line FDC-P1. Moreover, on hIL5-responsive TF1 cells, the same mutant was completely inactive and proved to have antagonistic properties. Interactions of this mutant with both receptor subunits were nevertheless indistinguishable from those of nonmutated hIL5 by crosslinking and Scatchard plot analysis of transfected COS-1 cells.
Proceedings of the National Academy of Sciences 06/1995; 92(11):5194-8. · 9.68 Impact Factor
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ABSTRACT: We have performed a detailed structure-function analysis of human interleukin 5 (hIL5) and its receptor. By testing a hIL5 mutant panel in a solid phase binding assay and a proliferation assay using hIL5 dependent cell-lines, areas on hIL5 involved in either the receptor alpha-subunit interaction or in receptor activation were identified. Epitope mapping data of a neutralizing and a non-neutralizing monoclonal antibody were in agreement with the mutant analysis. hIL5 binding areas on the IL5R alpha-subunit were identified by interspecies chimaera analysis. Finally, hIL5 mutants with reduced receptor activation potential have antagonistic properties.
Agents and actions. Supplements 02/1995; 46:23-34.
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ABSTRACT: Using a fusion protein of the human interleukin-5-receptor alpha chain (hIL5R alpha) and the human IgG C gamma 3 chain (hIL5R alpha-h gamma 3), we have developed a solid-phase assay for high-flux screening of a collection of synthetic compounds. We report on the identification of isothiazolone derivatives as potent inhibitors of binding of interleukin-5 (IL5) to the hIL5R alpha, as measured in a solid-phase assay (soluble hIL5R alpha or hIL5R alpha-h gamma 3) or on COS-1 cells expressing the hIL5R alpha on the cell membrane. The binding of hIL4 and human granulocyte macrophage colony-stimulating factor (hGM-CSF) to their respective receptors is not inhibited by the isothiazolones in similar assay systems. Scatchard analysis revealed that these compounds caused a decrease in affinity of the IL5R alpha for IL5. The inhibition of binding IL5 to its receptor by the isothiazolone derivatives is abrogated by free-sulfhydryl-containing compounds such as dithiothreitol, indicating that the isothiazolones react with the sulfhydryl group of free cysteine residues in the hIL5R alpha. Mutation of Cys66 led to a receptor which still binds hIL5, but which was insensitive to the inhibition by isothiazolones. Mutation of Cys249 and Cys296 to serine resulted in complete loss of IL-5-binding activity. The use of radio-labeled isothiazolone confirmed that Cys66, present in the first domain of the receptor, is the target for covalent modification leading to a decrease in affinity.
European Journal of Biochemistry 11/1994; 225(2):635-40. · 3.58 Impact Factor
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ABSTRACT: Recombinant human interleukin-5 (hIL-5) has been expressed at high levels and produced in large quantities in baculovirus infected Sf9 insect cells. The glycosylated protein was purified using immuno-affinity chromatography and gel filtration. Purified hIL-5 has been crystallized using standard vapour diffusion techniques with PEG as a coprecipitant. The crystals belong to the C2 space group and diffract to 2 A.
FEBS Letters 10/1993; 331(1-2):49-52. · 3.54 Impact Factor
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ABSTRACT: Recombinant soluble human interleukin-5 receptor alpha (shIL-5R alpha) has been expressed in COS-1 cells and in baculovirus-infected cells. The protein was purified from the supernatant by chromatography on concanavalin A-Sepharose, MonoQ, and a final gel filtration step. A chimeric fusion receptor protein (hIL-5R alpha-h gamma 3) was constructed by fusion of the cDNA corresponding to the shIL-5R alpha to the cDNA corresponding to the Fc part of the human IgG C gamma 3 chain, and was expressed in baculovirus-infected insect cells. The chimeric receptor was secreted as a disulfide-linked homodimer, and was purified by protein G affinity chromatography. In a solid-phase binding assay the shIL-5R alpha and the bivalent hIL-5R alpha-h gamma 3 were found to bind hIL-5 with a similar affinity, corresponding to the membrane-bound, low affinity hIL-5R alpha. SDS-polyacrylamide gel electrophoresis of shIL-5R alpha cross-linked to radiolabeled hIL-5, suggested that one shIL-5R alpha molecule binds to one hIL-5 homodimer molecule. Gel filtration studies of the complex formed between the shIL-5R alpha and hIL-5 pointed toward the same stoichiometry of binding. The formation of such a complex could be observed by electrophoresis in native gels. Immunoaffinity chromatography using a non-neutralizing monoclonal antibody directed against hIL-5, followed by size column chromatography, allowed the purification of the complex. The data obtained from the amino acid analysis of the constituents of the complex blotted from an SDS-polyacrylamide gel, and from the amino acid composition of the complex blotted from a native polyacrylamide gel, provided direct evidence that the shIL-5R alpha binds the hIL-5 dimer in a 1:1 ratio.
Journal of Biological Chemistry 04/1993; 268(9):6581-7. · 4.77 Impact Factor
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ABSTRACT: To obtain mAb against the murine IL-5R (mIL-5R), Wistar rats were immunized with B13 cells, a murine Ly-1+ (CD5+) pre-B cell line which is dependent on IL-3 or IL-5 for its growth. A first group of six mAb could immunoprecipitate, from detergent-lysed B13 cells, a 60-kDa polypeptide (p60) corresponding to the recently cloned mIL-5R alpha-chain. A second group of three mAb was able to immunoprecipitate a protein doublet of 130 to 140 kDa (p130 and p140) corresponding to the previously characterized mIL-3R and mIL-3R-like polypeptide, respectively. One mAb (25C9) specifically bound the p130 polypeptide only. Here we show that: 1) mAb directed against the mIL-5R p60 component completely block IL-5 binding; 2) mAb recognizing the p130-p140 doublet interfere with both IL-3 and IL-5 binding; 3) mAb recognizing p130-p140 block the high affinity binding of IL-5 and hence the high affinity mIL-5R consists of the association of the p60 and p130 and/or p140 component; 4) one particular mAb, 25C9, which binds only to the p130 polypeptide, interferes with only IL-3 binding, and has no effect on the binding of IL-5. These results on binding were corroborated by a biologic assay based on the cytokine-dependent proliferation of B13 cells. The results presented here support a model for the mIL-5R consisting of the alpha-chain (p60) associated with the p140 (IL-3R-like), whereas the p130 (IL-3R) is not involved in the IL-5R complex.
The Journal of Immunology 12/1991; 147(10):3413-8. · 5.79 Impact Factor
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ABSTRACT: cDNA clones encoding two receptor proteins involved in the binding of human interleukin 5 (hIL5) have been isolated. A first class codes for an IL5-specific chain (hIL5R alpha). The major transcript of this receptor gene, as analyzed in both HL-60 eosinophilic cells and eosinophilic myelocytes grown from cord blood, encodes a secreted form of this receptor. This soluble hIL5R alpha has antagonistic properties. A second component of the hIL5R is found to be identical to the beta chain of the human granulocyte-macrophage colony-stimulating factor (GM-CSF) high affinity receptor. The finding that IL5 and GM-CSF share a receptor subunit provides a molecular basis for the observation that these cytokines can partially interfere with each other's binding and have highly overlapping biological activities on eosinophils.
Cell 10/1991; 66(6):1175-84. · 32.40 Impact Factor
