Antibodies and meditopes that bind to the antibodies are provided, as well as complexes, compositions and combinations containing the meditopes and antibodies, and methods of producing, using, testing, and screening the same, including therapeutic and diagnostic methods and uses.

Antibodies, antigen-binding fragments, and conjugates (e.g., antibody-drug conjugates such as those comprising eribulin) thereof that bind to mesothelin are disclosed. The disclosure further relates to methods and compositions for use in the treatment of cancer by administering the compositions provided herein.

The present disclosure relates to anti-CDCP1 antibodies, and antigen binding fragments thereof that specifically bind to the full length and cleaved forms CUB domain-containing protein 1 (CDCP1), and conjugates comprising anti-CDCP1 antibodies and uses thereof for treatment and detection of cancer.

The present application relates to conjugates comprising an amatoxin, a target-binding moiety wherein the target is CD37, i.e., a CD37-binding moiety, and optionally a linker linking said amatoxin and said CD37-binding moiety. The invention further relates to the synthesis of said conjugates. In addition, the invention relates to a pharmaceutical composition comprising such conjugate for use in the treatment of immune cell-, particularly B-cell and/or lymphoma associated diseases and/or malignancies.

Antibodies, antigen-binding fragments, and conjugates (e.g., antibody-drug conjugates such as those comprising eribulin) thereof that bind to mesothelin are disclosed. The disclosure further relates to methods and compositions for use in the treatment of cancer by administering the compositions provided herein.

Aspects of the disclosure relate to antibodies that bind to transferrin receptor (e.g., transferrin receptor 1) and complexes comprising the antibody covalently linked to a molecular payload. Methods of using the antibodies are also provided.

Aspects of the disclosure relate to transferrin receptor 1 (TfR1) binding proteins and methods of use. In some cases, methods and compositions for preventing cancer comprising the use of TfR1-binding proteins are described. Embodiments include methods for preventing cancer, for example cancer caused by an infectious agent (e.g., Epstein-Barr virus), using a TfR1-binding protein. In some embodiments, the disclosed methods and compositions involve one or more antibodies that are capable of binding TfR1. Certain aspects relate to chimeric antibodies and antibody-like molecules.

The invention relates to B7 homology 3 protein (B7-H3) antibodies and antibody drug conjugates (ADCs), including compositions and methods of using said antibodies and ADCs.

Aspects of the disclosure relate to antibodies that bind to transferrin receptor (e.g., transferrin receptor 1) and complexes comprising the antibody covalently linked to a molecular payload. Methods of using the antibodies are also provided.

Methods for efficient preparation of drug-polymer (or oligomer) conjugates useful in the preparation of particles, including microparticles and nanoparticles, for delivery of the drug in vivo for therapeutic applications are provided. The invention also provides nanoparticles prepared by nanoprecipitation using drug-polymer/oligomer conjugates of the invention. The drug conjugates are formed during polymerization of the polymer or oligomer in which the drug is employed as an initiator of the polymerization of the monomers which form the polymer and/or oligomer. More specifically, the drug conjugates are formed by ring-opening polymerization of cyclic monomers in the presence of an appropriate ring-opening polymerization catalyst and the initiator (the drug). The method is particularly useful for formation of polymer/oligomer conjugates with drugs and other chemical species containing one or more hydroxyl groups or thiol groups.