0000000000812811

AUTHOR

Heinz Lother

showing 2 related works from this author

Homodimeric murine interleukin-3 agonists indicate that ligand dimerization is important for high-affinity receptor complex formation.

1994

Homodimeric murine interleukin 3 (mIL-3) agonists were generated by intermolecular cystine-bonding. Steady-state binding assays and association kinetics performed at 4 degrees C using these agonists revealed specific binding to both the high- and low-affinity receptor. DSS-mediated crosslinking studies performed at 4 degrees C with agonist concentrations compatible with high-affinity receptor complex formation allowed to detect protein complexes of the alpha chain, the beta chain(s) and the high-affinity receptor complex migrating with apparent molecular weights of 90 kDa, 140 kDa, and above 180 kDa, respectively. In contrast, monomeric mIL-3 was crosslinked to the alpha chain receptor only…

AgonistReceptor complexmedicine.drug_classMacromolecular SubstancesClinical BiochemistryInterleukin-17 receptorLigandsProtein Structure SecondaryCell LineMiceEndocrinologymedicineAnimalsReceptorProtease-activated receptor 2Interleukin 3Cell Line TransformedMolecular massChemistryGranulocyte-Macrophage Colony-Stimulating FactorCell BiologyLigand (biochemistry)Receptors Interleukin-3Recombinant ProteinsKineticsBiochemistryCystineBiological AssayElectrophoresis Polyacrylamide GelInterleukin-3Interleukin-5Cell DivisionThymidineGrowth factors (Chur, Switzerland)
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Intermolecular Cystine-Bonding of Murine Interleukin 2 Indicates that Ligand Dimerization is Important for the Formation of the High-Affinity Recepto…

1992

Interleukin 2 is thought to be active as a monomeric protein. As the nonessential Cys-140 of murine interleukin 2 (mIL2) is located in the hydrophobic interface of the amphiphilic F domain it was successfully used to stabilize hydrophobic amino acid contacts between two mIL2 cores yielding biologically active cystine-bonded dimeric mIL2. (3H) thymidine incorporation assays with intermolecular cystine-bonded or monomeric mIL2 revealed almost identical median effective concentrations (EC50) and high-affinity dissociation constants (Kdh), respectively. Comparative binding and internalization assays suggest that one cystine-bonded dimeric or two monomeric mIL2 molecules bind to the high-affinit…

Receptor complexStereochemistryMolecular Sequence DataClinical BiochemistrySuccinimidesLigandsCell LineMicechemistry.chemical_compoundEndocrinologyAnimalsAmino Acid SequenceReceptorPeptide sequencechemistry.chemical_classificationMolecular massLigandReceptors Interleukin-2Cell BiologyAmino acidDissociation constantKineticsCross-Linking ReagentsMonomerchemistryBiochemistryCystineInterleukin-2Cell DivisionGrowth Factors
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