Novel therapeutic immunotherapy compositions comprising at least two vectors, each vector encoding a functional CAR, whereby the combination of vectors results in the expression of two or more non-identical binding domains, wherein each vector encoded binding domain(s) are covalently linked to a transmembrane domain and one or more non-identical intracellular signaling motifs are provided herein as well as are methods of use of same in a patient-specific immunotherapy that can be used to treat cancers and other diseases and conditions.

The present disclosure is directed recombinant T cell receptors capable of binding an NY-ESO-1 epitope and nucleic acid molecules encoding the same. In some embodiments, the nucleic acid molecules further comprise a second nucleotide sequence, wherein the second nucleotide sequence or the polypeptide encoded by the second nucleotide sequence inhibits the expression of an endogenous TCR. Other aspects of the disclosure are directed to vectors comprising the nucleic acid molecule and cells comprising the recombinant TCR, the nucleic acid molecule, or the vector. Still other aspects of the disclosure are directed to methods of using the same. In some embodiments, the methods comprise treating a cancer in a subject in need thereof.

Bi-specific fusion proteins with therapeutic uses are provided, as well as pharmaceutical compositions comprising such fusion proteins, and methods for using such fusion proteins to repair or regenerate damaged or diseased tissue.

Herein is reported a method for producing an antibody-multimer-fusion polypeptide comprising (a) an antibody heavy chain and an antibody light chain, and (b) a first fusion polypeptide comprising in N- to C-terminal direction a first part of a non-antibody multimeric polypeptide, an antibody heavy chain CH1 domain or an antibody light chain constant domain, an antibody hinge region, an antibody heavy chain CH2 domain and an antibody heavy chain CH3 domain, and a second fusion polypeptide comprising in N- to C-terminal direction the second part of the non-antibody multimeric polypeptide and an antibody light chain constant domain if the first polypeptide comprises an antibody heavy chain CH1 domain or an antibody heavy chain CH1 domain if the first polypeptide comprises an antibody light chain constant domain, wherein (i) the antibody heavy chain of (a) and the first fusion polypeptide of (b), (ii) the antibody heavy chain of (a) and the antibody light chain of (a), and (iii) the first fusion polypeptide of (b) and the second fusion polypeptide of (b) are each independently of each other covalently linked to each other by at least one disulfide bond, characterized in that the antibody-multimer-fusion is expressed by a recombinant mammalian cell obtained by transfecting a mammalian cell with the expression cassettes for the antibody heavy chain, the antibody light chain, the first fusion polypeptide and the second fusion polypeptide at a stoichiometric ratio of 1:1:2:1.

The present disclosure provides transferring receptor binding polypeptides of the general formula H1-H2-E1-H3-E2-E3-H-4, herein H1, H2, H3, and H4 each independently comprise an alpha, helical domain of between 11-20 amino acids in length; E1, E2, and E3 each independently comprise a beta sheet of 5 amino acids in length; and optional amino acid linkers between domains.

Provided are a human GCGR antibody, a GLP-1 peptid and a mutant thereof, as well as a bispecific protein formed by fusion of the GCGR antibody and the GLP-1 peptide and a preparation method thereof, which can be used for weight loss and diabetes treatment.

The instant invention provides soluble fusion protein complexes and IL-15 variants that have therapeutic and diagnostic use, and methods for making the proteins. The instant invention additionally provides methods of stimulating or suppressing immune responses in a mammal using the fusion protein complexes and IL-15 variants of the invention.

A method for suppression of progress of, suppression of recurrence of and/or treatment of cancer includes administering an Allergin-1 antagonist in a therapy of a cancer patient with insufficient therapeutic efficacy by a tumor immunotherapeutic agent, or a cancer therapy in combination with an anti-cancer drug.

Provided are improved antibodies, or antigen-binding fragments thereof, which specifically bind to a denatured human collagen polypeptide at a cryptic collagen epitope (anti-denatured collagen antibodies), and fusion proteins comprising anti-denatured collagen antibodies fused to an effector domain, such as a cytokine or an immunomodulatory antibody.

The present invention relates to combination therapies employing anti-CD20/anti-CD3 bispecific antibodies and 4-1BB (CD137) agonists, in particular 4-1BBL trimer containing antigen binding molecules, the use of these combination therapies for the treatment of cancer and methods of using the combination therapies.