The present invention pertains to antigen recognizing constructs against tumor associated antigens (TAA), in particular the TAA Serine protease inhibitor Kazal-type 2 (SPINK2). The invention in particular provides novel T cell receptor (TCR) based molecules which are selective and specific for the tumor expressed antigen of the invention. The TCR of the invention, and SPINK2 binding fragments derived therefrom, are of use for the diagnosis, treatment and prevention of SPINK2 expressing cancerous diseases. Further provided are nucleic acids encoding the antigen recognizing constructs of the invention, vectors comprising these nucleic acids, recombinant cells expressing the antigen recognizing constructs and pharmaceutical compositions comprising the compounds of the invention.

The present invention relates to anti-FcRH5 antibodies, including anti-FcRH5 antibodies comprising an FcRH5 binding domain and a CD3 binding domain (e.g., FcRH5 T cell-dependent bispecific (TDB) antibodies), and methods of using the same.

The present invention provides methods and compositions for converting a first polypeptide into a chimeric polypeptide. The invention includes two vectors: a first vector including the sequence of the first polypeptide and a second vector including a second polypeptide. The vectors include complementary site-specific recombination motifs such that site-specific recombination between the two vectors results in the generation of a chimeric polypeptide including at least a portion of the first polypeptide and at least a portion of the second polypeptide. A site-specific recombination motif may be positioned within an intron or within a coding sequence on the first or second vector.

The invention relates to multimeric fusion proteins which bind to human Fc receptors. The invention also relates to therapeutic compositions comprising the proteins, and their use in the treatment of immune disorders.

The subject matter described herein is directed to methods of modifying the micro-environment of a target cell or The methods comprise systemically administering to a subject a composition comprising a vector, wherein the vector comprises a construct for the expression of a trap in the target cell, wherein the trap is expressed in the target cell thereby modifying the micro-environment. Also described herein are methods of reducing metastasis of a cancer comprising, systemically administering to a subject suffering from the cancer, a composition comprising a vector, wherein the vector comprises a construct for the expression of a trap, wherein the trap is delivered to and then expressed in tissue susceptible to metastasis, wherein metastasis of the cancer to the tissue is reduced. Compositions for carrying out the methods are also described.

The present disclosure relates to multi-specific molecules which are capable of simultaneously binding at least two different target antigens or epitopes. The molecules comprise at least one binding domain molecule (BDM) which hinds to a first target antigen or epitope, the BDM being modified for selective binding to a heterologous target, coupled to a pharmacologically active protein or peptide which is an antibody or antigen-binding fragment thereof or a non-antibody protein or peptide which binds to a second target antigen or epitope, the BDMs being coupled to a C-terminus of a polypeptide present within the pharmacologically active protein or peptide.

The invention relates to the field of binding molecules comprising at least one single variable antibody domain, targeted at receptors present on myofibroblasts and/or hepatic stellate cells (HSCs). The invention also relates to a binding molecule comprising at least two single variable antibody domains, each targeting a receptor on HSCs and/or on myofibroblasts. The invention further relates to nucleic acids encoding such binding molecules, a host cell for expression of such binding molecules and to methods for preparing such binding molecules. The invention further relates to pharmaceutical compositions that comprise such binding molecule and to uses of such binding molecules and/or compositions, in particular for prophylactic, therapeutic or diagnostic purposes.

The present invention is directed to optimized anti-CD3 variable sequences for use in a variety of bispecific formats, including those that utilize scFv components. The invention further relates to nucleic acids encoding for the polypeptide, to vectors comprising the same and to host cells comprising the vector. In another aspect, the invention provides for a pharmaceutical composition comprising the mentioned polypeptide and medical uses of the polypeptide.

Chimeric antigen receptors containing CD33 antigen binding domains are disclosed. Nucleic acids, recombinant expression vectors, host cells, antigen binding fragments, and pharmaceutical compositions, relating to the chimeric antigen receptors are also disclosed. Methods of treating or preventing cancer in a subject, and methods of making chimeric antigen receptor T cells are also disclosed.

Anti-IL2R (e.g., anti-IL2RB, anti-IL2RG, anti-IL2RB/G) antibodies are disclosed, along with methods of making such antibodies, compositions, including pharmaceutical compositions, comprising such antibodies, and use of such antibodies and compositions in the treatment of diseases and disorders that are mediated by the IL2/IL2R signaling pathway.