The present invention is directed to transduced T cells expressing at least 100,000 molecules of human somatostatin receptor 2 (SSTR2), which improves PET/CT imaging sensitivity. The present invention is also directed to transduced T cells expressing SSTR2 and chimeric antigen receptor (CAR). In one embodiment, the CAR is specific to human ICAM-1 and the CAR comprises a binding domain that is scFv of anti-human ICAM-1, or an I domain of the αL subunit of human lymphocyte function-associated antigen-1. In another embodiment, the CAR is specific to human CD19, and the CAR comprises a binding domain that is scFv of anti-human CD19. The present invention is further directed to using the above transduced T cells for monitoring T cell distribution in a patient by PET/CT imaging and/or treating cancer.

The invention relates to novel TNF family ligand trimer-containing antigen binding molecules having at least one moiety capable of specific binding to PD1 and a first and a second polypeptide that are linked to each other by a disulfide bond, the first polypeptide having two ectodomains of a TNF ligand family member or fragments thereof that are connected to each other by a peptide linker and the second polypeptide having a single ectodomain of the same TNF ligand family member or a fragment thereof.

The present invention relates to binding fusion protein compositions comprising targeting moieties linked to extended recombinant polypeptide (XTEN), binding fusion protein-drug conjugate compositions, and XTEN-drug conjugate compositions, isolated nucleic acids encoding the compositions and vectors and host cells containing the same, and methods of using such compositions in treatment of diseases, disorders, and conditions.

The present disclosure provides antigen-presenting polypeptides, including single-chain antigen-presenting polypeptides and multimeric antigen-presenting polypeptides comprising one or more chemical conjugation sites for incorporation of, for example, epitope containing polypeptides. The present disclosure provides nucleic acids comprising nucleotide sequences encoding antigen-presenting polypeptides comprising one or more chemical conjugation sites, as well as cells genetically modified with the nucleic acids. The single-chain and multimeric antigen-presenting polypeptides and their epitope conjugates are useful for modulating the activity of a T-cell, and accordingly, the present disclosure provides methods of modulating activity of a T-cell in vitro and in vivo as a method of treatment.

The invention provides compositions and methods for treating ovarian cancer. Specifically, the invention relates to administering a genetically modified T cell having α-folate receptor (FRα) binding domain and 4-1BB (CD137) costimulatory domain to treat ovarian cancer.

The present invention relates to fusion proteins comprising a binding protein and an IL-15 polypeptide as well as uses thereof, pharmaceutical compositions comprising such fusion proteins and a method for producing such fusion proteins.

Provided is a polypeptide combination, a targeting component thereof comprising a shielding peptide, a cleavable part, an antigen-binding part and a first intein fragment, the shielding peptide and the antigen-binding part being connected by means of the cleavable part, and the antigen-binding part being directly or indirectly connected to the first intein fragment; a toxin component thereof comprises a second intein fragment and a toxin, and the second intein fragment is directly or indirectly connected to the toxin; the targeting component and the toxin component form an immunoconjugate by means of the interactive action between the first intein fragment and the second intein fragment; in the immunoconjugate, the shielding peptide and the antigen-binding part are connected by means of the cleavable part, and the antigen-binding part is connected to the toxin. Also provided are a preparation method and a pharmaceutical use for the polypeptide combination.

The present disclosure provides improved CD33 targeting polypeptides and compositions for adoptive T cell therapies for treating, preventing, or ameliorating at least one symptom of a cancer, infectious disease, autoimmune disease, inflammatory disease, and immunodeficiency, or condition associated therewith.

Provided are activatable proprotein homodimers, comprising at least two separate polypeptide chains, each chain comprising an IL-2 protein a cleavable linker, and an IL-2 binding protein, among other optional features, and related pharmaceutical compositions and methods of use thereof.

Protein compositions for the treatment of cancer that concomitantly reduce metastasis are disclosed. The proteins include three functional domains for targeting cancer cells, promoting tumor cell adhesion, and signaling to CAR-T cells. Methods of using and making the proteins are also disclosed.