Linda S. Park

Identification of a ligand for the c-kit proto-oncogene

We report the purification and N-terminal amino acid sequence of a novel mast cell growth factor, termed MGF, from the supernatants of a murine stromal cell line. A panel of interleukin 3-dependent cell lines were screened for responsiveness to partially purified MGF in [3H]thymidine incorporation assays; proliferative stimulation of these cells in response to MGF correlated with expression of mRNA for the c-kit protooncogene. MGF was shown to be a ligand for c-kit by cross-linking 125I-labeled MGF to c-kit-expressing cells with subsequent immunoprecipitation of the complex with antiserum specific for the C-terminus of c-kit. This establishes MGF as a ligand for the c-kit protein.

The murine interleukin-4 receptor: Molecular cloning and characterization of secreted and membrane bound forms

Receptors for interleukin-4 (IL-4) are expressed at low levels on a wide variety of primary cells and cultured cell lines. Fluorescence-activated sorting of CTLL-2 cells resulted in the isolation of a subclone, CTLL 19.4, which expressed 10(6) IL-4 receptors per cell. These cells were used for the purification of IL-4 receptor protein and to prepare a hybrid-subtracted cDNA probe for isolation of cDNA clones. Three classes of IL-4 receptor cDNA were identified. The first encoded a 140 kd membrane bound IL-4 receptor containing extracellular, transmembrane, and cytoplasmic domains. The second class lacked the cytoplasmic region, and the third encoded a secreted form of the receptor. All cDNA clones expressed in COS-7 cells had IL-4 binding properties comparable to the native IL-4 receptor. The soluble form of the IL-4 receptor blocked the ability of IL-4 to induce CTLL cell proliferation and may represent a regulatory molecule specific for IL-4-dependent immune responses.

Cloning of the human and murine interleukin-7 receptors: Demonstration of a soluble form and homology to a new receptor superfamily

cDNA clones encoding the human and murine interleukin-7 (IL-7) receptor were isolated and expressed in COS-7 cells. Binding of radiolabeled IL-7 to the recombinant IL-7 receptors produced curvilinear Scatchard plots containing high and low affinity classes. These binding properties, as well as the molecular size of the cloned receptor, were comparable to the native forms of the IL-7 receptor. In addition, several cDNA clones were isolated that encode a secreted form of the human IL-7 receptor capable of binding IL-7 in solution. Analysis of the sequence of the IL-7 receptor revealed significant homology in the extracellular domain to several recently cloned cytokine receptors, demonstrating that the IL-7 receptor is a member of a new receptor superfamily.

A new cytokine receptor superfamily

The amino acid sequences of several, recently cloned cytokine receptors show significant homologies, primarily in their extracellular, ligand-binding domains. With one exception, their cognate cytokines mediate biological activities on a variety of hematopoietic cell types; thus we have designated the receptors as the hematopoietic receptor superfamily.

Dual Oncostatin M (OSM) Receptors CLONING AND CHARACTERIZATION OF AN ALTERNATIVE SIGNALING SUBUNIT CONFERRING OSM-SPECIFIC RECEPTOR ACTIVATION

Oncostatin M (OSM) is a cytokine whose structural and functional features are similar to other members of the interleukin (IL)-6 family of cytokines (IL-6, IL-11, leukemia inhibitory factor (LIF), granulocyte colonystimulating factor, ciliary neurotrophic factor, and cardiotrophin-1), many of which utilize gp130 as a common receptor subunit. A biologically active OSM receptor has been previously described that consists of a heterodimer of leukemia inhibitory factor receptor (LIFR) and gp130. This LIFR·gp130 complex is also a functional receptor for LIF. We have cloned and characterized an alternative subunit (OSMRβ) for an OSM receptor complex (a heterodimer of gp130 and OSMRβ) that is activated by OSM but not by LIF. The signaling capability of specific receptor subunit combinations was analyzed by independent assays measuring cell proliferation or induction of acute phase protein synthesis. Our results demonstrate that both LIF and OSM cause tyrosine phosphorylation and activation of the gp130·LIFR combination, but the gp130·OSMRβ complex is activated by OSM only. OSM-induced cellular responses, initiated through low affinity binding to gp130, are mediated by two heterodimeric receptor complexes that utilize alternative signal transducing subunits that confer different cytokine specificities to the receptor complex.

Cell-Cell Adhesion Mediated by Binding of Membrane-anchored Ligand LERK-2 to the EPH-related Receptor Human Embryonal Kinase 2 Promotes Tyrosine Kinase Activity

Human embryonal kinase 2 (HEK2) is a protein-tyrosine kinase that is a member of the EPH family of receptors. Transcripts for HEK2 have a wide tissue distribution. Recently, a still growing family of ligands, which we have named LERKs, for igands of the ph-elated inases, has been isolated. In order to analyze functional effects between the LERKs and the HEK2 receptor, we expressed HEK2 cDNA in an interleukin-3-dependent progenitor cell line 32D that grows as single cells in culture. Within the group of LERKs, LERK-2 and −5 were shown to bind to HEK2. Membrane-bound and soluble forms of LERK-2 were demonstrated to signal through HEK2 as judged by receptor phosphorylation. Coincubation of HEK2 and LERK-2 expressing cells induced cell-cell adhesion and formation of cell aggregates. This interaction could be inhibited by preincubation of HEK2 expressing cells with soluble LERK-2. Coexpression of HEK2 and LERK-2 in 32D cells showed reduced kinase activity and autophosphorylation of HEK2 compared with the juxtacrine stimulation, which seems to be due to a reduced sensitivity of the receptor.

Isolation of LERK-5: A ligand of the eph-related receptor tyrosine kinases

Hek and elk are members of the eph-related family of receptor tyrosine kinases. Recently we isolated four cDNAs encoding membrane-bound ligands to hek and elk [Beckman et al. (1994) EMBO J. 13, 3757-3762; Kozlosky et al. (1995) Oncogene 10, 299-306]. Because of the promiscuous nature of their binding, we have termed these proteins ligands of the eph-related kinases or LERKs. A search of GenBank revealed an expressed sequence tag (EST) with homology to the LERKs. Using this EST as a probe, we have isolated human and murine cDNAs that encode a protein which we call LERK-5. The human and murine cDNAs encode proteins of 333 and 336 amino acids, respectively, with a 97% amino acid identity; LERK-5 has an amino acid identity of 27-59% with the other reported LERKs. LERK-5 is a ligand for both elk and hek and induces receptor phosphorylation. It is expressed in adult lung and kidney and the fetal tissues heart, lung, kidney, and brain. In addition, Southern blot analysis of DNA from interspecific backcross mice indicated that LERK-5 (Eplg5) maps to the proximal region of mouse chromosome 8.

Hematopoietic effects of a granulocyte‐macrophage colony‐stimulating factor/interleukin‐3 fusion protein

The common functional characteristics of granulocyte‐macrophage colony‐stimulating factor (GM‐CSF) and interleukin‐3 (IL‐3) may be explained by the presence of a subpopulation of cell surface receptors capable of binding both growth hormones. A GM‐CSF/IL‐3 fusion protein (pIXY 321) was produced in a yeast expression host. Receptor binding studies with HL‐60, JM‐1, AML‐193, and KG‐1 cell lines suggested that the GM‐CSF and IL‐3 regions had adopted a native conformation within the fusion protein. The fusion protein also exhibited enhanced biologic activity compared with GM‐CSF or IL‐3 in assays of normal, primary human hematopoietic progenitor cells. pIXY 321 may offer significant clinical advantages over the individual cytokines.

Expression of Receptors for Interleukin 4 and Interleukin 7 on Human T Cells

Human recombinant interleukin 4 (IL-4) and interleukin 7 (IL-7) have been modified with biotin-N-hydroxysuccinimide and used to examine the expression of human IL-4 and IL-7 receptors (R) on activated peripheral blood T cells by flow cytometry. Freshly isolated T cells expressed only a low level of IL-4R which remained unchanged when cells were cultured in the absence of stimuli. In the presence of IL-4, IL-7, phytohemagglutinin A (PHA) or immobilized CD3 monoclonal antibody the intensity of biotinylated IL-4 staining increased approximately twofold on the majority of cells. A combination of mitogen with either IL-4 or IL-7 caused a considerable increase in IL-4 receptor expression over that seen in the presence of mitogen alone. IL-2 alone failed to induce IL-4R although it was able to cause a significant increase in receptor expression on T cells co-cultured with PHA or CD3. Freshly isolated T cells expressed high levels of IL-7R, as determined by biotinylated IL-7 binding and flow cytometry, which did not change significantly with culture in medium alone. Stimulation with PHA, Concanavalin A (Con A) or CD3 had little effect on the intensity of staining. In contrast, activation with phorbol ester resulted in a decrease in IL-7R expression. Similarly, in the presence of IL-4 or IL-7, but not IL-2, the intensity of staining with biotinylated IL-7 was lowered. Analysis of purified T-cell populations showed that IL-7R were present, and IL-4R could be induced, on both CD4+ and CD8+ populations. Analysis of IL-4 receptor expression by this flow cytometric technique was supported by results from 125I-labeled IL-4 binding and by Northern blot analysis of mRNA levels. Taken together, the results of these studies show that the use of biotinylated cytokines and flow cytometry provides a very sensitive method with which to study the expression and regulation of cytokine receptors.

The interleukin-7 receptor gene is at 5pl3

SummaryA DNA probe for the interleukin-7 receptor gene was used for in situ hybridisation and Southern blot analysis of a series of rodent-human hybrid cell lines. The IL-7 receptor gene maps to 5p13.