Disclosed are antibodies against MUC1, MUC1-CAR compositions and methods for use of these antibodies and compositions to target a MUC1 protein, wherein a cell expressing the MUC1 protein may be targeted and killed by, for instance, a cytotoxic T cell.

The present invention provides isolated monoclonal antibodies which bind to the MUC1 SEA domain. The invention also concerns the use of these antibodies in therapeutic and diagnostic methods.

Cysteine engineered antibodies comprising a free cysteine amino acid in the heavy chain or light chain are prepared by mutagenizing a nucleic acid sequence of a parent antibody and replacing one or more amino acid residues by cysteine to encode the cysteine engineered antibody; expressing the cysteine engineered antibody; and isolating the cysteine engineered antibody.

The present invention relates to antibodies that bind to human and monkey mucin 17 (MUC17). Moreover, the invention relates to a detection system comprising such antibodies. The antibodies or the detection system may be used for detecting or quantifying MUC17, for diagnosing a disease associated with MUC17, for patient stratification, monitoring disease progression, and evaluating the therapeutic response.

The present invention relates to an anti-MUC1 antibody binding specifically to Mucin 1 (MUC1) or an antigen-binding fragment thereof, an antibody-drug conjugate or bispecific antibody comprising the antibody, a pharmaceutical composition for prevention or treatment of cancer, comprising the same antibody, conjugate or bispecific antibody, and a nucleic acid encoding the same antibody, a vector and a host cell, both carrying the same nucleic acid, and a method for preparing an anti-MUC1 antibody or an antigen-binding fragment thereof, using the same vector and host cell. According to the present invention, the antibody shows outstanding affinity and binding force to MUC1 and the antibody-drug conjugate can bind specifically to a MUC1-expressing cell to specifically or selectively transfer the drug with efficacy. Therefore, the anti-MUC1 antibody and the antibody-drug conjugate according to the present invention can be usefully applied to the treatment of a MUC1-related disease, for example, cancer.

The present invention relates to methods for increasing the diversity of monoclonal antibodies produced against an antigen. The methods of the invention utilize immunization of a murine host defective in one or more enzymes involved in a post-translational modification of a polypeptide or a modification of a lipid, wherein said modification is exposed on a cell surface. The invention also relates to monoclonal antibodies produced by these methods and which are not produced when a normal mouse is immunized with the same antigen. The invention further relates to compositions comprising these monoclonal antibodies, as well as to such monoclonal antibodies bound or conjugated to a toxin, a detectable marker or to a solid support.

The present invention relates to methods and kits or articles of manufacture related thereto that may find use, inter alia, in assessing responsiveness of cancers to MUC16 antagonists by monitoring HE4 expression. In some embodiments, the methods include measuring the level of expression of HE4 in a sample from a subject; comparing the level of expression of HE4 in the sample with the level of expression of HE4 in a sample previously obtained from the subject; and, optionally, administering to the subject a therapeutically effective amount of a MUC16 antagonist.

Provided herein are recombinant nucleic acids encoding T cell receptor (TCR) fusion proteins (TFPs), modified γδ T cells expressing the encoded molecules, and methods of use thereof for the treatment of diseases, including cancer.

The present invention provides stable liquid pharmaceutical formulations comprising a human bispecific antibody that specifically binds to human MUC16 and human CD3. In certain embodiments, the formulations contain, in addition to the bispecific antibody, a buffer, a surfactant, and a sugar. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability upon stress and storage.

A fusion protein for cancer treatment and a use thereof is disclosed. The fusion protein for preventing or treating cancer of the present invention includes a fusion polypeptide including: an antibody or fragment thereof binding to a tumor-associated antigen; a linker; and a NK cell-inducing protein of CXCL16, wherein a co-administration of the fusion polypeptide along with the NK cells, an immunocyte therapeutic agent, greatly increases an influx of the NK cells into cancer expressing a certain antigen, thereby having a remarkable effect on preventing or treating cancer.