Abstract: The present invention provides methods of treating a mammal having chronic obstructive pulmonary disease (COPD), independent of both smoking status and asthma status, with a therapeutically effective amount of an anti-IgE moiety. In accordance with the invention, COPD patients with an elevated serum IgE level may benefit from the treatment methods disclosed. In certain instances, the methods of the disclosure have been found to be useful for the treatment of COPD patients regardless of their skin test results and/or in vitro reactivity to a perennial aeroallergen. Anti-IgE moieties, in accordance with the invention, include but are not limited to any IgG antibody that selectively binds to a given mammal immunoglobulin E (e.g., human immunoglobulin E) such as humanized anti-IgE, humanized murine monoclonal antibody, and/or Omalizumab.

Abstract: The invention pertains to methods of using C?mX peptides (e.g., GLAGGSAQSQRAPDRVL; SEQ ID NO:2) that can bind effectively induce immune responses to membrane-bound IgE (mIgE) expressed on the surface of human B lymphocytes.

Abstract: The invention provides a method for increasing the bioactivity (e.g. the biosafety and efficacy) of a therapeutic IgE antibody of the invention in the treatment of a patient. Methods of the invention include: i) administering to the patient a therapeutic IgE antibody in combination with at least one bioactivity-enhancing agent, ii) strategic treatment regimens and protocols for the dosing and administration of a therapeutic IgE antibody of the invention, and iii) the use of a therapeutic IgE antibody having a variable region comprising at least one antigen binding region specific for binding an epitope of an antigen wherein the epitope is not highly repetitive or is non-repetitive.

Abstract: Embodiments of the invention are related to a polypeptide comprising the amino acid sequence of a human IgE-Fc C?3-C?4, wherein said C?3-C?4 starts at amino acid 328 and ends at amino acid 547 of said IgE-Fc, and wherein C 328 is A and K 367 is C. Other embodiments concern a second polypeptide comprising the amino acid sequence of a human Fc?RI? extracellular region, wherein said extracellular region starts at amino acid 1 and ends at amino acid 176 of said Fc?RI?. Still other embodiments are related to a method of identifying a compound that inhibits the binding of an IgE-Fc to a Fc?RI?, said method comprising: contacting the polypeptide, wherein said IgE-Fc C?3-C?4 sequence is labeled with a fluorophore, and the second polypeptide, with a test compound; and determining whether binding of said polypeptide to said second polypeptide is decreased in the presence of said test compound.

Abstract: This invention relates to methods of treating IgE mediated disorders such as allergy and asthma based on activating surface-bound IgD molecules on basophils. The invention also relates to methods of making IgD, as well as methods of screening for antimicrobial agents from IgD-activated basophils.

Abstract: The invention pertains to the generation and utility of antibodies that can bind effectively to C?mX domain on membrane-bound IgE (mIgE) expressed on the surface of human B lymphocytes. The C?mX domain of 52 amino acid residues, located between the CH4 domain and the C-terminal membrane-anchor peptide on human membrane-bound epsilon chain, had been suggested as an antigenic site for immunological targeting of B cells expressing mIgE. Previous reported monoclonal antibodies, including a20, which bind to RADWPGPP (SEQ ID NO:1) peptide at the C-terminal of C?mX, have now been found to bind poorly to mIgE on human B cells. We have discovered that only monoclonal antibodies specific for certain segments, such as GLAGGSAQSQRAPDRVL (SEQ ID NO:2) and HSGQQQGLPRAAGGSVPHPR (SEQ ID NO:3), of C?mX can bind effectively to mIgE on human B cells and hence have the utility for targeting those B cells for the treatment of diseases mediated by IgE.

Abstract: The present invention relates to the provision of novel immunogens comprising an antigenic IgE peptide preferably linked to an immunogenic carrier, compositions comprising the immunogens, and methods for the prevention, treatment or alleviation of IgE-mediated disorders. The invention further relates to methods for production of these medicaments, immunogenic compositions and pharmaceutical compositing thereof and their use in medicine.

Abstract: The present application relates to apoptotic anti-IgE antibodies, nucleic acid encoding the same, therapeutic compositions thereof, and their use in the treatment of IgE-mediated disorders.

Abstract: The present invention relates to the provision of novel immunogens comprising an antigenic IgE peptide preferably linked to an immunogenic carrier for the prevention, treatment or alleviation of IgE-mediated disorders. The invention further relates to methods for production of these medicaments, immunogenic compositions and pharmaceutical compositing thereof and their use in medicine.

Abstract: The invention pertains to the generation and utility of antibodies that can bind effectively to C?mX domain on membrane-bound IgE (mIgE) expressed on the surface of human B lymphocytes. The C?mX domain of 52 amino acid residues, located between the CH4 domain and the C-terminal membrane-anchor peptide on human membrane-bound epsilon chain, had been suggested as an antigenic site for immunological targeting of B cells expressing mIgE. Previous reported monoclonal antibodies, including a20, which bind to RADWPGPP (SEQ ID NO:1) peptide at the C-terminal of C?mX, have now been found to bind poorly to mIgE on human B cells. We have discovered that only monoclonal antibodies specific for certain segments, such as GLAGGSAQSQRAPDRVL (SEQ ID NO:2) and HSGQQQGLPRAAGGSVPHPR (SEQ ID NO:3), of C?mX can bind effectively to mIgE on human B cells and hence have the utility for targeting those B cells for the treatment of diseases mediated by IgE.

Abstract: The present invention relates to the discovery of antibodies that bind to novel epitopes present on membrane-anchored immunoglobulins and which bind to these novel epitopes on the surface of B cells and plasma cells. In addition, the antibodies of the present invention can mediate ADCC and can be useful to deplete those B cells and plasma cells expressing the novel epitopes of the invention. The antibodies of the present invention can be useful for the treatment of B cell-mediated diseases and diseases caused by monoclonal expansion of B cells. Accordingly the present invention also provides compositions and methods for the prevention, management, treatment or amelioration of B cell-mediated diseases and diseases caused by monoclonal expansion of B cells.

Abstract: The present invention provides compositions and methods for the use of antigenic peptides derived from the Fc portion of the epsilon heavy chain of an IgE molecule as vaccines for the treatment and prevention of IgE-mediated allergic disorders. In particular, the invention provides compositions, methods for the treatment and prevention of IgE-mediated allergic disorders comprising an immunogenic amount of one or more antigenic peptides derived from the CH3 domain or junction of Ch-3/CH4 domain of an IgE molecule and methods for the evaluation of IgE mediated allergies in dogs.

Abstract: The present invention relates to the discovery of antibodies that bind to novel epitopes present on membrane-anchored IgE and which bind to these novel epitopes on the surface of B cells and plasma cells. In addition, the antibodies of the present invention can mediate ADCC and can be useful to deplete those B cells and plasma cells expressing the novel epitopes of the invention. The antibodies of the present invention can be useful for the treatment of IgE-mediated diseases. Accordingly the present invention also provides compositions and methods for the prevention, management, treatment or amelioration of IgE-mediated diseases.

Abstract: This invention relates to binding members, especially antibody molecules, for IgE. The binding members are useful for, inter alia, treatment of disorders mediated by IgE including allergies and asthma.

Abstract: The present invention relates to IgE-dependent histamine releasing factor (HRF) and HRF-binding peptides, more precisely, deletion forms of HRF which are able to be formed as dimers containing amino acid sequence represented by SEQ ID NO:3, genes encoding thereof and novel HRF-binding peptides having an activity of inhibiting HRF. The deletion forms of HRF which are able to be formed as dimers of the present invention induces intracellular secretion of histamine and IL-8, making an excellent candidate for a drug for inhibiting allergic reaction triggered by HRF and a kit for detecting HRF in serum of an allergy patient. In addition, novel HFR-binding peptides of the present invention bind to HRF to inhibit the actions of HFR, so they can be effectively used for the prevention and the treatment of allergic diseases of animals including asthma and rhinitis or malaria.

Abstract: The invention relates to: nucleic acid molecules encoding the light chain and heavy chain of feline immunoglobulin E (IgE), including species-specific regions of feline IgE; proteins encoded by the nucleic acid molecules; inhibitors to the nucleic acids and proteins; antibodies to the proteins; cells transformed with the nucleic acid molecules; assays employing the transformed cells, nucleic acids, antibodies and/or proteins or portions thereof; methods for treating IgE-mediated responses (ie. allergy) using the materials provided; methods for eliciting an immune response to IgE and kits containing the nucleic acid molecules, proteins or derivatives thereof (ie. antibodies).

Abstract: This invention provides a fusion protein (FP4) and the code gene, expression method, and clinical application; its goal is to provide a fusion protein, the code gene, and the expression method as well as to take this fusion protein as the active constituent anti-allergic medicine. In addition, the invention provides the sequence of fusion protein attached on SEQ ID 2 and any derivation protein of the fusion protein (FP4) which includes adding or deleting several amino acids of SEQ ID 2 as well as increasing or deducing nuclear tides of SEQ ID 1. We designed to cross-link IgE active receptor and an IgG inhibitory receptor by endogens hinge without any extraneous chemical link. This invention fusion protein has function to block the IgE acceptor, moreover fragment of fusion protein has ability to specifically bind to a native IgG inhibitory receptor containing immunoreceptor tyrosine-based inhibitory motif, thereby inhibiting the IgE-driven mediator release from mast cells and basophils.

Abstract: The present invention provides methods of quantitating recent secreted antigen specific antibodies from supernatant of antibody secreting cells (ASC) in vitro culture for evaluation of vaccine or antigen induced antigen specific antibody secretion without ex vivo antigen stimulation.

Abstract: The present invention relates to equine Fc epsilon receptor alpha chain nucleic acid molecules, proteins encoded by such nucleic acid molecules, antibodies raised against such proteins, and inhibitors of such proteins. The present invention also includes methods to detect IgE using such proteins and antibodies. Also included in the present invention are therapeutic compositions comprising such proteins, nucleic acid molecules, antibodies and/or inhibitory compounds as well as the use of such therapeutic compositions to mediate Fc epsilon receptor-mediated biological responses.

Abstract: The invention relates to a method of evaluating the immunological status of a subject comprising the steps of 1) determining the content of an antibody in a liquid sample from the subject using an immunoassay, wherein the reaction between the antibody of the sample and a ligand in the form of an antigen, an antibody or a hapten, the ligand being directed to the Fab region of the sample antibody, is carried out in the presence of other constituents of the sample to obtain a measurement 1, 2) determining the content of an antibody in the liquid sample using an immunoassay, wherein the reaction between the antibody of the sample and a ligand in the form of an antigen, an antibody or a hapten, the ligand being directed to the Fab region of the sample antibody, is carried out in the absence of other constituents of the sample to obtain a measurement 2, and 3) interrelating measurements 1 and 2 to express the interference and using the interference as a parameter for evaluating the immunological status of the subje

Abstract: Compositions are administered to block IgE binding to receptors and ultimately displace native IgE from mast cells and related cell types, to prevent the activation of these cells during an allergic response. The compositions consist of a pharmaceutically acceptable carrier for systemic or local administration and an amount of compound binding specifically to the Fc&egr;RI IgE binding sites, and more preferably, Fc&egr;RI and Fc&egr;RII IgE binding sites, to prevent activation and degranulation of mast cells in response to exposure to allergens. The compounds can consist of IgE molecules and fragments and modifications thereof, such as IgE fragments, humanized or single chain IgE antibodies or fragments thereof, IgE with a modified Fab, non-crosslinkable IgE, or peptidomimetics which bind to the same site on the receptor as the IgE, jointly referred to herein as “IgE fragments” unless otherwise stated.

Abstract: Two classes of polypeptides derived from human IgE are described. One class binds selectively to the high affinity IgE receptor on mast cells and basophils, but not to the low affinity IgE receptor on B-cells, monocytes, eosinophils and platelets. The other class binds to the low affinity receptor, but not the high affinity receptor. The differential binding polypeptides of this invention are useful in diagnostic procedures for IgE receptors or in the therapy of IgE-mediated disorders such as allergies. They also are useful in preparing antibodies capable of binding regions of IgE that participate in receptor binding.

Abstract: The invention concerns a composition composed of several different antibodies or/and antibody fragments which is suitable as a reagent to reduce interferences in an immunological method for the class-specific detection of antibodies from one or several of the immunoglobulin classes G, M, A, D and E.

Abstract: The invention relates to an artificial positive control reagents based on antibody conjugates that are used in immunochemical detection methods and to processes for the preparation of these reagents.

Abstract: The invention relates to novel purified human immunoglobulin E binding factors (IgE-BFs), its individual optionally glycosylated proteins, and fragments thereof, processes for the purification of IgE-BFs, novel monoclonal antibodies to lymphocyte cellular receptors for IgE (Fc.sub..epsilon. R) crossreacting with IgE-BFs, derivatives thereof, processes for the preparation of these antibodies and their derivatives, hybridoma cell lines that produce these antibodies, processes for the preparation of said hybridoma cell lines, the use of the monoclonal antibodies and their derivatives for the qualitative and quantitative determination of IgE-BFs, test kits containing the monoclonal antibodies and/or their derivatives, the use of the monoclonal antibodies for the purification of IgE-BFs, the use of purified IgE-BFs, its individual optionally glycosylated proteins and/or fragments thereof for the prevention and/or treatment of allergy, and to pharmaceutical preparations containing them.

Abstract: The invention relates to a vaccine, preferably for human use, against IgE-mediated allergic reactions. The vaccine contains a protein having the entire amino acid sequence of the constant CH2-CH3 domains of the epsilon chain of the IgE molecule or a structurally stable unit of said amino acid sequence, the protein optionally being coupled to one or more heterologous carrier proteins, and optionally containing an adjuvant. The vaccine is injected, with or without adjuvant, to raise the concentration of endogenous anti-IgE antibodies in the plasma of allergy subjects. In practice, the vaccine can be used against all types of IgE-mediated allergies since the antibodies are not dependent of the antigen specificity of the IgE molecule but will reduce the total IgE pool of the subject. Therefore, the vaccine is aimed at being used for treatment of subjects having different types of IgE-mediated allergies.

Abstract: The present invention provides novel compositions and methods useful in the, modulation or selective suppression of host immune responses to an immunogen of interest, particularly exogenous antigens and allergens such as urushiol, the active plant component causing poison ivy/oak contact sensitivity. The subject compositions are antibody molecules of either Ab.sub.1 or Ab.sub.2 (anti-idiotypic) reactivity with respect to the sensitizing antigen. Other compositions include specific T cell receptor (TCR) molecules either as T cell clones or hybridomas or as TCR preparations. Immunogenic peptides corresponding to some or all of the complementary determining regions or hyper-variable regions of the TCR are also employed. Such compositions suppress host immune responses to antigen by a variety of pathways including anti-idiotypic interactions with cells involved in antigen processing and stimulation of the immune network.

Abstract: The present invention provides novel monoclonal antibodies HE-22A, HE-35A, HE-39E, and HE-69B against human IgE, a mixture thereof, hybridomas producing the antibodies, and immunoassays of human IgE employing the antibodies, which are useful for clinical diagnosis of allergic diseases or parasitic infections.

Abstract: The invention relates to artificial positive control reagents based on antibody conjugates that are used in immunochemical detection methods and to processes for the preparation of these reagents.

Abstract: The present invention provides novel monoclonal antibodies HE-22A, HE-35A, HE-39E, and HE-69B against human IgE, a mixture thereof, hybridomas producing the antibodies, and immunoassays of human IgE employing the antibodies, which are useful for clinical diagnosis of allergic diseases or parasitic infections.

Abstract: A method for isolating the immunoglobulin compounds in the feces of animals and humans including the steps of placing said feces in a container with a buffer solution, homogenizing the feces in a phosphate buffer saline solution thereby forming a homogenized solution, separating the solids from the homogenized solution leaving a clear solution and chemically precipitating substantially all material contained in the clear solution with the exception of the immunoglobulin compounds through the use of protamine. The method produces a sufficient amount of immunoglobulin compounds for diagnostic and treatment purposes, if necessary. In particular, the production of IgAs has been quite useful for these purposes.

Abstract: IgE binding factors (IgE-bfs) with IgE suppressor (IgE-SF) activity obtainable from human colostrum in an enriched form, a method for the prevention and/or the treatment of allergy by administering the IgE-bfs and pharmaceutical compositions comprising said IgE-bfs.

Abstract: Antigenic epitopes associated with the extracellular segment of the domain which anchors immunoglobulins to the B cell membrane are disclosed. For IgE, the epitopes are present on IgE-bearing B cells but not basophils or the secreted, soluble form of IgE. The epitope can be exploited for therapy and diagnosis. For example, antibodies or immunotoxins specific for the epitopes associated with the anchor domain of IgE can be used to selectively destroy IgE-bearing lymphocytes, thus blocking IgE-mediated allergic reactions.

Abstract: A competitor for human Immunoglobulin E (IgE) comprises a polypeptide which has a core sequence of seventy-six amino acids which is shown, together with the corresponding DNA sequence coding therefor, in FIG. 2. This amino acid sequence, numbered 1 to 76, corresponds to amino acids 301 to 376 of the epsilon heavy cain of IgE. The polypeptide may also include additional short sequences at the beginning and/or end of the core sequence which are physiologically harmless and do not contribute to the ability of the core sequence to bind compete with native IgE for the high-affinity receptor sites on human cells. The polypeptide is indicated for the treatment of Type I hypersensitivity reactions such as hay fever. The polypeptide may be produced synthetically or by expression from Escherichia coli containing a plasmid having a DNA segment coding for the polypeptide.

Abstract: The present invention relates to a novel tumor-associated antigen that is a cell-surface glycoprotein having a molecular weight in the range of 110,000-140,000 daltons that is present in a variety of carcinomas, including squamous cell carcinomas and adenocarcinomas. The invention also comprises antibodies reactive with the antigen, hybridoma cell lines that produce the antibodies of the invention, and methods for using the antibodies in the diagnosis and treatment of cancer.