An IgE-binding protein with a distinctive repetitive sequence and homology with an IgG receptor.

Proteins that bind IgE play important roles in both the synthesis and function of IgE are therefore intimately involved in IgE-mediated human allergic disorders. This report describes the structure of an IgE-binding protein, as predicted from sequencing a cDNA cloned from rat basophilic leukemia cells. This protein contains two domains: the amino-terminal domain (140 amino acids) consists of a highly conserved repetitive amino acid sequence, Tyr-Pro-Gly-Pro/Gln-Ala/Thr-Pro/Ala-Pro-Gly-Ala, whereas the carboxyl-terminal domain (122 amino acids) shares significant sequence homology with a domain of lymphocyte/macrophage receptor for the Fc portion of IgG.

Genetic basis for the cross-reactive idiotypes on the light chains of human IgM anti-IgG autoantibodies.

The role of immunoglobulin structural genes in the generation of autoantibodies in humans has not been elucidated. Human monoclonal IgM anti-IgG autoantibodies (rheumatoid factors, RFs) from unrelated people often share idiotypic antigens. Antibodies against synthetic peptides have localized two of the shared idiotypic determinants to the second and third complementarity-determining regions of the kappa light chain.

Identification of an IgE-binding protein by molecular cloning.

The synthesis and function of IgE are dependent on IgE-binding proteins, which include cell surface IgE receptors and IgE-binding lymphokines. To further our understanding of the IgE system, we have engaged in the molecular cloning of genes for some of these proteins. In studying the in vitro translation products of mRNA from rat basophilic leukemia (RBL) cells, we have identified a Mr 31,000 polypeptide that binds IgE and is also reactive with antibodies to proteins affinity-purified from RBL cells with IgE immunoadsorbent.

Synthesis of surface immunoglobulin E receptor in Xenopus oocytes by translation of mRNA from rat basophilic leukemia cells.

Immunoglobulin E-binding activity was expressed in Xenopus oocytes injected with mRNA from rat basophilic leukemia cells which possess abundant immunoglobulin E (IgE) receptor. Such activity was demonstrated with intact oocytes by their binding of 125I-labeled mouse monoclonal IgE. Binding activity was specific as shown by the total inhibition of 125I-IgE binding by unlabeled IgE but not by unlabeled IgG1.

IgE-mediated chemotaxis of rat basophilic leukemia cells towards specific antigen.

We evaluated chemotactic properties of four sublines of rat basophilic leukemia cells using blindwell Boyden chamber assays. After sensitization with a mouse monoclonal IgE directed against dinitrophenyl (DNP), cells from sublines 2H3-C and 926a underwent chemotaxis toward DNP-bovine serum albumin (BSA) and sublines RBL-1 and 4A did not. Chemotactic responses required specific IgE and were determined by the IgE antigen specificity used for sensitization.

Directional protrusive pseudopodial activity and motility in macrophages induced by extracellular electric fields.

Extracellularly applied electric fields (less than 12 V/cm) strongly influence murine resident peritoneal macrophages (M phi) to undergo directional protrusive pseudopodial activity towards the positive pole of the electric fields in the absence of exogenously applied chemotactic ligands. Internal and external morphological features were not grossly disrupted by the fields. Directional motility induced by the electric fields was inhibited in the presence of 1.

Electrophoresis and diffusion in the plane of the cell membrane.

Electrophoretic and diffusional movements of concanavalin A (Con A) receptors and acetylcholine (ACh) receptors in the plane of the plasma membrane of mononucleate, spherical Xenopus myoblasts were studied by microfluorimetry and iontophoresis. We found that (a) a uniform electric field of 10 V/cm applied along the cell surface produces a partial accumulation of both types of receptors toward the cathodal pole of the cell within 30 min: (b) post-field relaxation of the culture results in the complete recovery of the uniform distribution of the Con A receptors within 10 min; and (c) in contrast to the Con A receptor in general, accumulation of ACh receptors by the electric field results in the formation of stable, localized receptor aggregates. Theoretical analyses were carried out for the distribution of charged membrane receptors at equilibrium between electrophoresis and diffusion, and for the rate of back diffusion after the removal of the field.

Electrophoretic movement and localisation of acetylcholine receptors in the embryonic muscle cell membrane.

A steady electric field of 30 mV across a single embryonic muscle cell produces accumulation of acetylcholine receptors toward one pole of the cell within 1 h. The movement is electrophoretic in nature and the accumulation results in the formation of stable, metabolically independent receptor aggregates.

Peripheral control of responsiveness to auditory stimuli in giant fibres of crickets and cockroaches.

Auditory stimuli initiate ascending activity in large fibres of the ventral nerve cord of the cricket, Acheta domesticus, and the cockroach, Periplaneta americana. This auditory responsiveness is reduced during locomotion. An earlier study concluded that the depression of responsiveness was mediated by descending inhibition.