The present disclosure provides modified antibodies which contain an antibody or antibody fragment (AB) modified with a masking moiety (MM). Such modified antibodies can be further coupled to a cleavable moiety (CM), resulting in activatable antibodies (AAs), wherein the CM is capable of being cleaved, reduced, photolysed, or otherwise modified. AAs can exhibit an activatable conformation such that the AB is more accessible to a target after, for example, removal of the MM by cleavage, reduction, or photolysis of the CM in the presence of an agent capable of cleaving, reducing, or photolysing the CM. The disclosure further provides methods of making and using such modified antibodies and activatable antibodies.

This disclosure relates to methods for improving the therapeutic index of a chemotherapeutic drug in the treatment of patients afflicted with cancer, by reducing chemotherapy-related toxicity to a level that allows the chemotherapeutic drug to be used in humans.

The present invention concerns compositions and methods of use of T-cell redirecting complexes, with at least one binding site for a T-cell antigen and at least one binding site for an antigen on a diseased cell or pathogen. Preferably, the complex is a DNL complex. More preferably, the complex comprises a bispecific antibody (bsAb). Most preferably, the bsAb is an anti-CD3anti-CD19 bispecific antibody, although antibodies against other T-cell antigens and/or disease-associated antigens may be used. The complex is capable of targeting effector T cells to induce T-cell-mediated cytotoxicity of cells associated with a disease, such as cancer, autoimmune disease or infectious disease. The cytotoxic immune response is enhanced by co-administration of interferon-based agents that comprise interferon-, interferon-, interferon-1, interferon-2 or interferon-3.

The invention provides, inter alia, methods of reducing gastrointestinal immune-related adverse events, such as colitis and diarrhea, in subjects undergoing an immune treatment, such as an immune oncology treatment, such as anti-CTLA4 antibody and anti-PD-1 antibody combination treatment for melanoma. In certain aspects, the methods encompass administering a therapeutically effective amount of a polypeptide that inhibits MAdCAM-integrin binding, such as an anti-?4?7 integrin antibody, such vedolizumab or a related antibody.

The present disclosure provides modified antibodies which contain an antibody or antibody fragment (AB) modified with a masking moiety (MM). Such modified antibodies can be further coupled to a cleavable moiety (CM), resulting in activatable antibodies (AAs), wherein the CM is capable of being cleaved, reduced, photolysed, or otherwise modified. AAs can exhibit an activatable conformation such that the AB is more accessible to a target after, for example, removal of the MM by cleavage, reduction, or photolysis of the CM in the presence of an agent capable of cleaving, reducing, or photolysing the CM. The disclosure further provides methods of making and using such modified antibodies and activatable antibodies.

Provided herein are methods for producing site specific PEG modifications to single domain antibodies (e.g., VHHs). Methods for producing site-specifically conjugated bivalent single domain antibodies (e.g., VHHs) are also provided. Methods for labeling (e.g., with a fluorophore or radionuclide) site-specifically PEGylated single domain antibodies and site-specifically conjugated bivalent single domain antibodies are also provided.

The invention provides, inter alia, methods of reducing gastrointestinal immunerelated adverse events, such as colitis and diarrhea, in subjects undergoing an immune treatment, such as an immune oncology treatment, such as anti-CTLA4 antibody and anti-PD-1 antibody combination treatment for melanoma. In certain aspects, the methods encompass administering a therapeutically effective amount of a polypeptide that inhibits MAdCAM-integrin binding, such as an anti-?4?7 integrin antibody, such vedolizumab or a related antibody.

The present invention relates to use of certain alkylglycoside compositions for the prevention of aggregation and oxidation of antibodies and other proteins in therapeutically useful formulations thereof.

The present invention concerns compositions and methods of use of T-cell redirecting complexes, with at least one binding site for a T-cell antigen and at least one binding site for an antigen on a diseased cell or pathogen. Preferably, the complex is a DNL complex. More preferably, the complex comprises a bispecific antibody (bsAb). Most preferably, the bsAb is an anti-CD3anti-CD19 bispecific antibody, although antibodies against other T-cell antigens and/or disease-associated antigens may be used. The complex is capable of targeting effector T cells to induce T-cell-mediated cytotoxicity of cells associated with a disease, such as cancer, autoimmune disease or infectious disease. The cytotoxic immune response is enhanced by co-administration of interfon-based agents that comprise interferon-, interferon-, interferon-1, interferon-2 or interferon-3.

Disclosed are agents inhibiting the interaction between CFH and CD11b/18, as well as the use of such agents, in particular for treating inflammatory disorders, such as age-related macular degeneration.