Abstract: The present disclosure provides methods for site-selectively crosslinking payloads to antibodies and other proteins. This can be accomplished using traceless affinity labels designed to label target proteins with bio-orthogonally reactive entities (ORE) using the compositions and methods described herein.
Type:
Grant
Filed:
November 5, 2018
Date of Patent:
August 2, 2022
Assignee:
ADVANCED PROTEOME THERAPEUTICS INC.
Inventors:
Alexander Krantz, Andrzej Wilczynski, Grzegorz Rymarczyk
Abstract: The present invention relates to the formation of conjugates (e.g., protein-protein dimers) using a-halo-acetophenones, benzylic halides, quinones, and related compounds as a conjugating system. The invention also features compositions that include the conjugates described herein, as well as uses of these conjugates in methods of medical treatment.
Abstract: The present invention generally provides methods for the site-specific modification of peptides, polypeptides, and proteins, e.g., granulocyte macrophage colony-stimulating factor, human superoxide dismutase, annexin, leptin, antibodies and the like, cytokines and chemokines, at their N-termini and at sites at which unnatural aminoacids have been introduced along the protein framework. The modifications described herein can be used for the synthesis and application of the adducts in radio-labeling, molecular imaging and protein therapeutic applications, and the treatment of disorders such as rheumatoid arthritis, lupus erythematosus, psoriasis, multiple sclerosis, type-1 diabetes, Crohn's disease, and systemic sclerosis, Alzheimer disease, cancer, liver disease (e.g., alcoholic liver disease), and cachexia.
Abstract: The present invention relates to the formation of conjugates (e.g., protein-protein dimers) using a-halo-acetophenones, benzylic halides, quinones, and related compounds as a conjugating system. The invention also features compositions that include the conjugates described herein, as well as uses of these conjugates in methods of medical treatment.
Abstract: Site-specific modifications of proteins at their N-termini are provided. In particular, a chemical modification of proteins at their N-termini via a transamination reaction to form homogeneous adducts such as, the corresponding oxime derivatives is provided. Methods of making and using the adducts in radio-labeling, molecular imaging applications, and treatment of disorders such as cancer, Crohn's disease, arthritis, atherothrombosis and plaque rupture are also provided.
Abstract: The present invention provides methods of discovering and mapping secondary binding sites on biological molecules (e.g., proteins), the effects, if any, of site occupancy on the primary function of the molecule, and the screening of small molecules against the secondary binding sites. The invention further provides novel complexes for modification of secondary binding sites and the resulting modified biological molecules.
Abstract: The present invention provides methods of discovering and mapping secondary binding sites on biological molecules (e.g., proteins), the effects, if any, of site occupancy on the primary function of the molecule, and the screening of small molecules against the secondary binding sites. The invention further provides novel complexes for modification of secondary binding sites and the resulting modified biological molecules.