The present application relates to antibody molecules that bind and are able to agonise both CD137 and OX40. The antibody molecules comprise a CDR-based binding site for CD137, and an OX40 antigen-binding site that is located in a constant domain of the antibody molecule. The antibody molecules of the invention find application, for example, in the treatment of diseases, such as cancer and infectious diseases.

Human recombinant antibodies or fragments thereof having specificity for the β2-glycoprotein I (β2GPI), pharmaceutical compositions containing same and use thereof in a method for treating or preventing thrombus formation and fetal loss in a patient affected by antiphospholipid syndrome (APS).

Multivalent antigen-binding proteins comprising two or three or four or more immunoglobulin heavy chain variable domain binding domains are provided, as are methods for making them, nucleic acid constructs, and cell lines for making them. Proteins comprising two or three or four or more different heavy chain variable domains that lack an immunoglobulin variable domain are provided. Proteins comprising two or three or four or more different heavy chain variable domains that associate with the same immunoglobulin light chain variable domain are also provided.

A bispecific epitope binding protein having a multimer of four single-chain chimeric polypeptides of two single-chain chimeric heavy chains and two single-chain chimeric light chains. The bispecific epitope binding protein has a first antigen binding domain that binds specifically to HER2 and a second antigen binding domain that binds specifically to 4-1BB.

Described herein are protease-activatable proteins (PABPs), which, when activated, can mediate cytolysis of target cells by effector cells. Also provided are nucleic acids encoding such PABPs and methods of making and using PABPs.

The invention provides non-human cells and mammals having a genome encoding chimeric antibodies and methods of producing transgenic cells and mammals. Certain aspects of the invention include chimeric antibodies, humanized antibodies, pharmaceutical compositions and kits. Certain aspects of the invention also relate to diagnostic and treatment methods using the antibodies of the invention.

Certain embodiments are directed to a bispecific immunoglobulin that is capable of binding cell surface molecules on a target cell, such as cancer cells, and cell surface molecules on immune effector cell, such as cytotoxic T lymphocytes, resulting in the targeted killing of target cells. In certain aspects a Bif is a polypeptide comprising a first target binding domain that specifically binds a cancer cell, a second effector binding domain that specifically binds an immunologic effector, and an immunoglobulin constant region linker operatively coupling the first and second binding domain.

The instant disclosure provides antibodies that specifically bind to ApoC3 (e.g., human ApoC3) and antagonize ApoC3 function. Also provided are pharmaceutical compositions comprising these antibodies, nucleic acids encoding these antibodies, expression vectors and host cells for making these antibodies, and methods of treating a subject using these antibodies.

The invention relates to novel bispecific antigen binding molecules, comprising (a) at least one antigen binding domain capable of specific binding to Fibroblast Activation Protein (FAP) comprising FAP clone 212 or variants thereof, and (b) at least one antigen binding domain capable of specific binding to CD40, and to methods of producing these molecules and to methods of using the same.

The present invention generally relates to novel protease-activatable T cell activating bispecific molecules and idiotype-specific polypeptides. The present invention also relates to polynucleotides encoding such protease-activatable T cell activating bispecific molecules and idiotype-specific polypeptides, and vectors and host cells comprising such polynucleotides. The invention further relates to methods for producing the protease-activatable T cell activating bispecific molecules and idiotype-specific polypeptides of the invention, and to methods of using these protease-activatable T cell activating bispecific molecules and idiotype-specific polypeptides in the treatment of disease.