Antibodies and method of making antibodies, either monoclonal or polyclonal wherein said antibodies have dual or multi-specific binding capacity to more than one type of antigenic epitope. The antibodies have simultaneous or independent recognition subsites to each of the epitopes. Antigenic epitopes include lipids, peptides, proteins, amino acid sequences, sugars and carbohydrates. Monoclonal antibodies and a method of making monoclonal antibodies of the invention include monoclonal antibodies that are broadly neutralizing to HIV-1 or other envelop viruses wherein the monoclonal antibody has subsites that simultaneously recognize protein and lipid epitopes from the virus.

The present invention relates to multispecific antibodies, for example bispecific antibodies, and methods for the isolation or purification of the same. The antibodies of the invention comprise first and second heavy chain-light chain pairings wherein each pairing comprises a distinct selective recognition site including one or more amino acid residues contributed from the heavy chain and the light chain of the pairing. The first and second selective recognition sites differ by at least one amino acid residue and can be differentially bound by first and second selective recognition agents according to the methods of the invention. Such methods facilitate the production of antibody preparations enriched for multispecific antibodies having the correct functional heavy chain-light chain pairings.

Herein is reported a heterodimeric polypeptide comprising a first polypeptide comprising in N-terminal to C-terminal direction at least a portion of an immunoglobulin hinge region, which comprises one or more cysteine residues, an immunoglobulin CH2-domain and an immunoglobulin CH3-domain, and a second polypeptide comprising in N-terminal to C-terminal direction at least a portion of an immunoglobulin hinge region, which comprises one or more cysteine residues, an immunoglobulin CH2-domain and an immunoglobulin CH3-domain, wherein the first polypeptide comprises the mutations Y349C, T366S, L368A and Y407V (hole-chain) and the second polypeptide comprises the mutations S354C and T366W (knob-chain), and wherein the first polypeptide (hole-chain) comprises the mutations i) I253A or I253G, and ii) L314A or L314G or L314D, and wherein the first polypeptide and the second polypeptide are connected by one or more disulfide bridges, and wherein the CH3-domain of the first polypeptide and the CH3-domain of the second polypeptide both bind or both do not bind to protein A (numbering according to the Kabat EU index).

Herein is reported an IgG class Fc-region comprising a first variant Fc-region polypeptide and a second variant Fc-region polypeptide, wherein a) the first variant Fc-region polypeptide is derived from a first parent IgG class Fc-region polypeptide and the second variant Fc-region polypeptide is derived from a second parent IgG class Fc-region polypeptide, whereby the first parent IgG class Fc-region polypeptide is identical to or different from the second parent IgG class Fc-region polypeptide, and b) the first variant Fc-region polypeptide differs from the second variant Fc-region polypeptide in one or more amino acid residues other than those amino acid residues in which the first parent IgG class Fc-region polypeptide differs from the second parent IgG class Fc-region polypeptide, and c) the IgG class Fc-region comprising the first variant Fc-region polypeptide and the second variant Fc-region polypeptide has an affinity to a human Fc-receptor that is different than that of an IgG class Fc-region comprising the first parent IgG class Fc-region polypeptide of a) and the second parent IgG class Fc-region polypeptide of a), wherein either the first Fc-region polypeptide or the second Fc-region polypeptide or both Fc-region polypeptides comprise independently of each other one of the following mutations or combination of mutations: T307H, or Q311H, or E430 H, or N434H, or T307H and Q311H, or T307H and E430H, or T307H and N434A, or T307H and N434H, or T307Q and Q311H, or T307Q and E430H, or T307Q and N434H, or T307H and Q311H and E430H and N434A, or T307H and Q311H and E430H and N434H, or T307H and Q311H and E430H and N434Y, or T307Q and Q311H and E430H and N434A, or T307Q and Q311H and E430H and N434H, or T307Q and Q311H and E430H and N434Y, or T307Q and V308P and N434Y and Y436H, or T307H and M252Y and S254T and T256E, or T307Q and M252Y and S254T and T256E, or Q311H and M252Y and S254T and T256E, or E430 H and M252Y and S254T and T256E, or N434H and M252Y and S254T and T256E, or T307H and Q311H and M252Y and S254T and T256E, or T307H and E430H and M252Y and S254T and T256E, or T307H and N434A and M252Y and S254T and T256E, or T307H and N434H and M252Y and S254T and T256E, or T307Q and Q311H and M252Y and S254T and T256E, or T307Q and E430H and M252Y and S254T and T256E, or T307Q and N434H and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434A and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434H and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434Y and M252Y and S254T and T256E, or T307Q and Q311H and E430H and N434A and M252Y and S254T and T256E, or T307Q and Q311H and E430H and N434H and M252Y and S254T an

The present invention is directed to bi-specific monovalent diabodies that comprise an immunoglobulin Fc Domain (“bi-specific monovalent Fc diabodies”) and are composed of three polypeptide chains and which possess at least one binding site specific for an epitope of CD32B and one binding site specific for an epitope of CD79b (i.e., a “CD32B×CD79b bi-specific monovalent Fc diabody”). The bi-specific monovalent Fc diabodies of the present invention are capable of simultaneous binding to CD32B and CD79b. The invention is directed to such compositions, to pharmaceutical compositions that contain such bi-specific monovalent Fc diabodies and to methods for their use in the treatment of inflammatory diseases or conditions, and in particular, systemic lupus erythematosus (SLE) and graft vs. host disease.

The present invention relates to bispecific antigen binding proteins, methods for their production, pharmaceutical compositions containing said antibodies, and uses thereof.

Disclosed herein are immunoglobulin fusion proteins comprising a first antibody region, a first therapeutic agent, and a first connecting peptide; wherein the first therapeutic agent is attached to the first antibody region by the connecting peptide; and wherein the connecting peptide does not comprise a region having beta strand secondary structure. The connecting peptide may comprise an extender peptide. The extender peptide may have an alpha helical secondary structure. The connecting peptide may comprise a linker peptide. The linker peptide may not comprise any secondary structure. Also disclosed herein are compositions comprising the immunoglobulin fusion proteins and methods for using the immunoglobulin fusion proteins for the treatment or prevention of a disease or condition in a subject.

The present invention is directed to novel heterodimeric antibodies.

Multispecific, e.g., bispecific, antibody molecules that include a kappa light chain polypeptide and one lambda light chain polypeptide, and methods of making and using the multispecific antibody molecules, are disclosed.

The present disclosure provides bispecific proteins that bind to two antigens, as well as their compositions, uses, and methods of making.