The present invention concerns a method of treating peanut allergy in a subject, or a population of subjects, the method comprising administering to said subject or population of subjects a peanut allergen by an oral immunotherapy (OIT) regimen comprising a dose escalation phase in which the peanut allergen is administered in a dose which is increased in increments from an initial dose of the allergen equivalent of 5 mg peanut protein or less to a dose of the allergen equivalent of 200 mg peanut protein or more within 4 to 9 weeks from the administration of the initial dose. The treatment reduces the length of the build-up phase in peanut OIT methods and improves the likelihood or odds of the subject achieving sustained unresponsiveness.

The present invention concerns a method of treating peanut allergy in a subject, or a population of subjects, the method comprising administering to said subject or population of subjects a peanut allergen by an oral immunotherapy (OIT) regimen comprising a dose escalation phase in which the peanut allergen is administered in a dose which is increased in increments from an initial dose of the allergen equivalent of 5 mg peanut protein or less to a dose of the allergen equivalent of 200 mg peanut protein or more within 4 to 9 weeks from the administration of the initial dose. The treatment reduces the length of the build-up phase in peanut OIT methods and improves the likelihood or odds of the subject achieving sustained unresponsiveness.

The present invention concerns a method of treating peanut allergy in a subject, or a population of subjects, the method comprising administering to said subject or population of subjects a peanut allergen by an oral immunotherapy (OIT) regimen comprising a dose escalation phase in which the peanut allergen is administered in a dose which is increased in increments from an initial dose of the allergen equivalent of 5 mg peanut protein or less to a dose of the allergen equivalent of 200 mg peanut protein or more within 4 to 9 weeks from the administration of the initial dose. The treatment reduces the length of the build-up phase in peanut OIT methods and improves the likelihood or odds of the subject achieving sustained unresponsiveness.

Nucleic acids encoding fusion proteins that contain an unwanted antigen and a leader sequence for cell secretion are described. Also described are expression cassettes, vectors, cells, and cell lines containing the nucleic acids, as well as methods of using the nucleic acids to treat autoimmune, allergic and other diseases and disorders, such as multiple sclerosis.

Nucleic acids encoding fusion proteins that contain an unwanted antigen and a leader sequence for cell secretion are described. Also described are expression cassettes, vectors, cells, and cell lines containing the nucleic acids, as well as methods of using the nucleic acids to treat autoimmune, allergic and other diseases and disorders, such as multiple sclerosis.

The present invention provides DNA vaccines for the treatment of allergies. The vaccines comprise the coding sequence for one or more allergenic epitopes, and preferably the full protein sequence, of the allergenic protein from which the epitope(s) is derived, fused inframe with the lumenal domain of the lysosomal associated membrane protein (LAMP) and the targeting sequence of LAMP. The vaccines allow for presentation of properly configured three dimensional epitopes for production of an immune response. The vaccines can be multivalent molecules, and/or can be provided as part of a multivalent vaccine containing two or more DNA constructs.

The present invention provides DNA vaccines for the treatment of allergies. The vaccines comprise the coding sequence for one or more allergenic epitopes, and preferably the full protein sequence, of the allergenic protein from which the epitope(s) is derived, fused inframe with the lumenal domain of the lysosomal associated membrane protein (LAMP) and the targeting sequence of LAMP. The vaccines allow for presentation of properly configured three dimensional epitopes for production of an immune response. The vaccines can be multivalent molecules, and/or can be provided as part of a multivalent vaccine containing two or more DNA constructs.

The present disclosure is directed to human monoclonal IgE antibodies, and IgG antibodies engineered therefrom. Such engineered antibodies can be used to blunt pathologic IgE responses in subjects, such as in the treatment or prevention of allergies.

The present disclosure is directed to human monoclonal IgE antibodies, and IgG antibodies engineered therefrom. Such engineered antibodies can be used to blunt pathologic IgE responses in subjects, such as in the treatment or prevention of allergies.

Methods of manufacture of nut flours and/or formulations, ultra-low fat nut flours and uses for nut flour formulations. In some embodiments, methods of manufacturing ultra-low fat tree nut or peanut flour formulations for oral administration in immunotherapy of subjects affected by allergies.