Abstract: Multi-specific binding proteins that bind to and kill human cancer cells expressing epidermal growth factor receptor 2 (HER2 or ErbB2), but does not kill non-cancerous healthy human cells expressing HER2 are described, as well as pharmaceutical compositions and therapeutic methods useful for the treatment of HER2 expressing cancer. The invention also relates to multi-specific binding proteins that trigger CD8+ T cell killing of tumor cells.

Abstract: Antibody heavy chain variable domains that can be paired with antibody light chain variable domains to form an antigen-binding site targeting the NKG2D receptor on natural killer cells are described. Proteins comprising an NKG2D antigen-binding site, pharmaceutical compositions and therapeutic methods thereof, including for the treatment of cancer, are also described.

Abstract: Multi-specific binding proteins that bind to and kill human cancer cells expressing CD33 (Siglec-3) are described, as well as pharmaceutical compositions and therapeutic methods useful for the treatment of CD33 expressing cancer. The invention relates to multi-specific binding proteins that bind to human cancer cells expressing CD33 and exhibit high potency and maximum lysis of target cells compared to anti-CD33 monoclonal antibodies. The multi-specific binding proteins comprise a CD33-binding domain, an NKG2D-binding domain and a CD16-binding domain.

Abstract: Described herein are multispecific binding proteins that bind NKG2D receptor, CD16, and CLEC12A, pharmaceutical compositions comprising the multispecific binding proteins, and therapeutic methods useful for the treatment of cancer.

Abstract: Antibody heavy chain variable domains that can be paired with antibody light chain variable domains to form an antigen-binding site targeting the NKG2D receptor on natural killer cells are described. Proteins comprising an NKG2D antigen-binding site, pharmaceutical compositions and therapeutic methods thereof, including for the treatment of cancer, are also described.

Abstract: Antibody heavy chain variable domains that can be paired with antibody light chain variable domains to form an antigen-binding site targeting the NKG2D receptor on natural killer cells are described. Proteins comprising an NKG2D antigen-binding site, pharmaceutical compositions and therapeutic methods thereof, including for the treatment of cancer, are also described.

Abstract: Antibody heavy chain variable domains that can be paired with antibody light chain variable domains to form an antigen-binding site targeting the NKG2D receptor on natural killer cells are described. Proteins comprising an NKG2D antigen-binding site, pharmaceutical compositions and therapeutic methods thereof, including for the treatment of cancer, are also described.

Abstract: Multi-specific binding proteins that bind HER2, the NKG2D receptor, and CD 16 are described, as well as pharmaceutical compositions and therapeutic methods useful for the treatment of cancer.

Abstract: Multi-specific binding proteins that bind a tumor associated antigen, the NKG2D receptor, and CD 16 are described, as well as pharmaceutical compositions and therapeutic methods useful for the treatment of cancer.

Abstract: The present invention provides Fc-fused protein constructs, which as monovalent dimers have a higher serum half-life compared to a native/natural molecule, and are, therefore, advantageous for achieving higher titers of the proteins during production, higher stability during storage, and improved efficacy when used as a therapeutic. Also provided are Fc-fused protein constructs having mutations in the Fc region that reduce effector functions, which have increased activity to inhibit tumor growth and are, therefore, advantageous when used as a cancer therapy.

Abstract: The present invention provides Fc-fused protein constructs, which as monovalent dimers have a higher serum half-life compared to a native/natural molecule, and are, therefore, advantageous for achieving higher titers of the proteins during production, higher stability during storage, and improved efficacy when used as a therapeutic. Also provided are Fc-fused protein constructs having mutations in the Fc region that reduce effector functions, which have increased activity to inhibit tumor growth and are, therefore, advantageous when used as a cancer therapy.

Abstract: Multi-specific binding proteins that bind NKG2D receptor, CD 16, and a tumor-associated antigen ROR1 or ROR2 are described, as well as pharmaceutical compositions therapeutic methods useful for the treatment of cancer.

Abstract: Antibody heavy chain variable domains that can be paired with any of a variety of antibody light chain variable domains to form an antigen binding site targeting the NKG2D receptor on natural killer cells are described. Also described are antibodies and antigen-binding sites that compete for binding to NKG2D. Related pharmaceutical compositions and therapeutic methods, including for the treatment of cancer, are also described.