The invention provides compositions and methods for treating CEA-positive cancers. The method comprising administering a PD-1 axis binding antagonist and a bispecific antibody that targets CEA and CD3.

Pharmaceutical compositions comprising antibody-urease conjugates and substantially free of unconjugated urease are disclosed. These compositions are prepared by a method that does not require chromatographic purification. These pharmaceutical compositions have utility in the treatment of cancer by antibody-directed enzyme prodrug therapy wherein the urease converts endogenous urea into ammonia in situ to induce cytotoxicity.

The present invention provides a covalent conjugate. The conjugate includes an antibody or antibody derivative, at least two LL37-derived polypeptides, and a payload. The antibody or antibody derivative targets a cell that has phosphatidylserine in its outer leaflet. The payload includes: a small molecule cytotoxic drug of less than 3 kDa, or a plurality thereof; or a peptide or protein of less than 100 kDa. Uses and methods of using these covalent conjugates are also provided, related to enhancing delivery of the antibody/derivative or the payload, e.g. to enhance therapeutic or diagnostic effectiveness.

The present invention relates to a novel chimeric antigen receptor and to a pharmaceutical composition for preventing or treating containing the same.

The present invention relates to a chimeric costimulatory antigen receptor (CoStAR) useful in adoptive cell therapy (ACT), and cells comprising the CoStAR. The CoStAR can act as a modulator of cellular activity enhancing responses to defined antigens. The present invention also provides CoStAR proteins, nucleic acids encoding the CoStAR and therapeutic uses thereof.

Provided is an anti-CEA antibody comprising a heavy chain variable region and a light chain variable region, a drug conjugate thereof, and a composition containing the anti-CEA antibody or the drug conjugate thereof, and an application thereof as a drug.

The invention provides bispecific antibodies binding to human carcinoembryonic antigen CEACAM5 and human CD47, polynucleotides encoding such bispecific antibodies and vectors and host cells comprising such polynucleotides. The invention further provides methods for selecting and producing such antibodies and methods of using such antibodies in the treatment of diseases in monotherapy as well in combination.

Some embodiments provided herein are chimeric costimulatory antigen receptor (CoStAR), useful in adoptive cell therapy (ACT), and cells comprising the CoStAR. In some embodiments, the CoStAR can act as a modulator of cellular activity enhancing responses to defined antigens. In some embodiments, CoStAR and/or fusion proteins, nucleic acids encoding the CoStAR and therapeutic uses thereof are also provided.

The present invention relates to therapeutic immunoconjugates comprising SN-38 attached to an antibody or antigen-binding antibody fragment. The antibody may bind to EGP-1 (TROP-2), CEACAM5, CEACAM6, CD74, CD19, CD20, CD22, CSAp, HLA-DR, AFP or MUC5ac and the immunoconjugate may be administered at a dosage of between 4 mg/kg and 24 mg/kg, preferably 4, 6, 8, 9, 10, 12, 16 or 18 mg/kg. When administered at specified dosages and schedules, the immunoconjugate can reduce solid tumors in size, reduce or eliminate metastases and is effective to treat cancers resistant to standard therapies, such as radiation therapy, chemotherapy or immunotherapy.

The present invention provides cell-targeting molecules which can deliver a CD8+ T-cell epitope cargo to the MHC class I presentation pathway of the cell. The cell-targeting molecules of the invention can be used to deliver virtually any CD8+ T-cell epitope from an extracellular space to the MHC class I pathway of a target cell, which may be a malignant cell and/or non-immune cell. The target cell can then display on a cell-surface the delivered CD8+ T-cell epitope complexed with MHC I molecule. The cell-targeting molecules of the invention have uses which include the targeted labeling and/or killing of specific cell-types within a mixture of cell-types, including within a chordate, as well as the stimulation of beneficial immune responses. The cell-targeting molecules of the invention have uses, e.g., in the treatment of a variety of diseases, disorders, and conditions, including cancers, tumors, growth abnormalities, immune disorders, and microbial infections.