Patent application number | Description | Published |
20120149876 | Stable Heterodimeric Antibody Design with Mutations in the Fc Domain - The provided scaffolds have heavy chains that are asymmetric in the various domains (e.g. CH2 and CH3) to accomplish selectivity between the various Fc receptors involved in modulating effector function, beyond those achievable with a natural homodimeric (symmetric) Fc molecule, and increased stability and purity of the resulting variant Fc heterodimers. These novel molecules comprise complexes of heterogeneous components designed to alter the natural way antibodies behave and that find use in therapeutics. | 06-14-2012 |
20130195849 | Stable Heterodimeric Antibody Design with Mutations in the Fc Domain - The provided scaffolds have heavy chains that are asymmetric in the various domains (e.g. CH2 and CH3) to accomplish selectivity between the various Fc receptors involved in modulating effector function, beyond those achievable with a natural homodimeric (symmetric) Fc molecule, and increased stability and purity of the resulting variant Fc heterodimers. These novel molecules comprise complexes of heterogeneous components designed to alter the natural way antibodies behave and that find use in therapeutics. | 08-01-2013 |
20130336973 | Heteromultimer Constructs of Immunoglobulin Heavy Chains with Mutations in the Fc Domain - Provided herein are isolated heteromultimers comprising: at least one single domain antigen-binding construct attached to at least one monomer of a heterodimer Fc region; wherein the heterodimer Fc region comprises a variant CH3 domain comprising amino acid mutations that promote the formation of said heterodimer with stability comparable to that of a native Fc homodimer; and wherein said isolated heteromultimer is devoid of immunoglobulin light chains and optionally devoid of immunoglobulin CH1 region. These novel molecules comprise complexes of heterogeneous components designed to alter the natural way antibodies behave and that find use in therapeutics. | 12-19-2013 |
20140051835 | Process and Methods for Efficient Manufacturing of Highly Pure Asymmetric Antibodies in Mammalian Cells - The present invention provides a process and methods for producing asymmetric antibodies in a mammalian expression system. The asymmetric antibodies are transiently or stably expressed and in cells that stably express the asymmetric antibody, following a rapid 2-step process of stable pool to clone, a highly pure asymmetric antibody expressing clone can be identified at a success frequency that permits for screening of tens of clones rather than thousands. The asymmetric antibodies are produced at a high titre and with a high level of purity with no contaminating homodimer antibodies following protein A purification with a step yield of near 100%. Typical downstream purification processes employ standard hydrophobic interaction chromatography (HIC) and/or cation exchange (CEX) resins and the antibody is stable within a wide dynamic range of buffer pH (4-8) and within the requirements for manufacturing antibodies for pre-clinical and clinical applications. | 02-20-2014 |
20140154253 | Bispecific Asymmetric Heterodimers Comprising Anti-CD3 Constructs - Disclosed herein are isolated multi-specific heteromultimer constructs that bind to CD3 expressed on T-cells and to an antigen expressed on B-cells. The multi-specific heteromultimer constructs are capable of bridging T- and B-cells and mediating killing of B-cells. The multi-specific heteromultimer constructs are based on a heterodimeric Fc scaffold or on a segmented albumin scaffold. Also disclosed herein are multi-specific heteromultimer constructs that bind to HER2 and HER3. | 06-05-2014 |
20140200331 | Engineered Immunoglobulin Heavy Chain-Light Chain Pairs And Uses Thereof - The present invention provides heterodimer pairs comprising a first heterodimer and a second heterodimer wherein each heterodimer comprises an immunoglobulin heavy chain or fragment thereof and an immunoglobulin light chain. At least one of the heterodimers comprises amino acid modifications in the C | 07-17-2014 |
20150125449 | Single-Arm Monovalent Antibody Constructs and Uses Thereof - Provided herein are monovalent antibody constructs. In specific embodiments is a monovalent antibody construct comprising: an antigen-binding polypeptide construct which monovalently binds an antigen; and a dimeric Fc polypeptide construct comprising a CH3 domain, said construct comprising two monomeric Fc polypeptides, wherein one said monomeric Fc polypeptide is fused to at least one polypeptide from the antigen-binding polypeptide construct. These therapeutically novel molecules encompass monovalent constructs that display an increase in binding density and Bmax (maximum binding at a target to antibody ratio of 1:1) to a target cell displaying said antigen as compared to a corresponding monospecific bivalent antibody construct with two antigen binding regions. Provided herein are methods for creation of monovalent antibody constructs that shows superior effector efficacy as compared to the corresponding bivalent antibody construct at equimolar concentrations. Provided herein are methods for creation of monovalent antibody constructs that unexpectedly inhibit tumor cell growth and can be internalized and show greater efficacy compared to a bivalent antibody construct at equimolar saturating concentrations. Provided are monovalent antibody constructs for the treatment of HER2 expressing diseases. | 05-07-2015 |
20150284470 | CRYSTAL STRUCTURES OF HETERODIMERIC Fc DOMAINS - Disclosed are the atomic coordinates of compositions comprising Fc heterodimer proteins in crystalline form derived from high resolution x-ray diffraction. Further disclosed are systems and methods for using all or a portion of these atomic coordinates to identify and design improved Fc heterodimer proteins. Further disclosed are compositions comprising a mixture of (i) a solubilized Fc heterodimer protein and (ii) a mother liquor solution. The mother liquor solution comprises between 2% and 10% (v/v) ethylene glycol, between 10% and 25% (w/v) polyethylene glycol having an average molecular weight of between 2000 Daltons and 10000 Daltons, and between 0.05 M and 0.40 M ammonium iodide. Further disclosed are systems and methods of identifying a mutation which promotes heterodimeric Fc chain pair formation in which structure based modeling is performed to identify a candidate mutation to an Fc chain using all or a portion of the disclosed three-dimensional atomic coordinates. | 10-08-2015 |