Abstract: Compounds, e.g., radioimmunoconjugates, including a chelating moiety or a metal complex thereof, a linker, and an antibody or antigen-binding fragment thereof targeting both EGFR and cMET. Pharmaceutical compositions of such compounds and methods of treatment for conditions, e.g., cancer, using such compounds or pharmaceutical compositions.

Abstract: The disclosure generally relates to binding proteins that comprise antigen binding sites, a T cell receptor binding site, and a T cell co-stimulatory molecule binding site. The disclosure also relates to pharmaceutical compositions comprising such binding proteins, nucleic acid molecules encoding such binding proteins, and vectors comprising such nucleic acid molecules. The disclosure further relates to methods of treating a disorder or condition using such binding proteins and pharmaceutical compositions, binding proteins and pharmaceutical compositions for use in the treatment of a disorder or condition, and the use of such binding proteins and pharmaceutical compositions for the manufacture of a medicament for treating a disorder or condition.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: Provided are T ell engaging molecules that bind an antigen on a non-immune cell and an antigen on an immune cell. The T cell engaging molecules can bind STEAP2 on a cancer cell and, e.g., a CD3 on a T cell. The T cell engaging molecules can also bind STEAP2 on a cancer cell and, e.g., a CD8 on a T cell. Alternatively, the T cell engaging molecules can bind STEAP2 on a cancer cell and both CD3 and CD8 on a T cell.

Abstract: The present disclosure relates to antibodies or fragments thereof comprising an antigen binding domain capable of binding to a CD3 protein or a fragment thereof. The present disclosure also relates to such antibodies that bind to CD3 having optimized affinity to induce T cell activation, but without being associated with excessive cytokine release and reduced tolerability. The disclosure also relates to methods of producing these antibodies and their therapeutic uses.

Abstract: Provided herein are multispecific antibodies containing a lambda charge pair introduced into the interface of a heavy chain and a light chain to reduce chain mispairing.

Abstract: Provided herein are trispecific antibodies containing three antigen binding arms each capable of binding to a different target, wherein each antigen binding arm contains a different lambda or kappa charge pair introduced into the interface of the respective heavy and light chains to reduce chain mispairing.

Abstract: Provided herein is a multispecific antibody containing two antigen binding arms capable of binding to a first target and at least one antigen binding arm capable of binding to a second target. The multispecific antibody includes a lambda charge pair introduced into the interface of a heavy chain and a light chain to reduce chain mispairing.

Abstract: The present disclosure relates to antibody molecules that bind epidermal growth factor receptor (EGFR) and/or c-Met and conjugates containing these antibody molecules. The antibody molecules and conjugates find application in the treatment of cancer, for example.

Abstract: The disclosure relates to binding proteins, including antibodies, that bind to Programmed Death-1 (“PD-1”) and T cell immunoreceptor with Ig and ITIM domains (“TIGIT”). The disclosure also provides compositions comprising such binding proteins and nucleic acid molecules encoding such binding proteins. The disclosure further relates to methods of treating a disorder or condition using such binding proteins.

Abstract: The present disclosure relates to antibody molecules that bind epidermal growth factor receptor (EGFR) and/or c-Met and conjugates containing these antibody molecules. The antibody molecules and conjugates find application in the treatment of cancer, for example.

Abstract: The disclosure relates to binding proteins, including antibodies, that bind to Programmed Death-1 (“PD-1”) and T cell immunoreceptor with Ig and ITIM domains (“TIGIT”). The disclosure also provides compositions comprising such binding proteins and nucleic acid molecules encoding such binding proteins. The disclosure further relates to methods of treating a disorder or condition using such binding proteins.

Abstract: The present disclosure relates to antibody molecules that bind epidermal growth factor receptor (EGFR) and/or c-Met and conjugates containing these antibody molecules. The antibody molecules and conjugates find application in the treatment of cancer, for example.

Abstract: The disclosure relates to binding proteins, including antibodies, that bind to Programmed Death-1 (“PD-1”) and T cell immunoreceptor with Ig and ITIM domains (“TIGIT”). The disclosure also provides compositions comprising such binding proteins and nucleic acid molecules encoding such binding proteins. The disclosure further relates to methods of treating a disorder or condition using such binding proteins.

Abstract: The present disclosure provides methods of altering engagement between T-cell immunoglobulin and mucin domain containing protein-3 (TIM-3) and phosphatidylserine (PS) in a subject. Also provided are methods of treatment using TIM-3 binding protein wherein the TIM-3 binding domain specifically binds to the C?C? and DE loops of the immunoglobulin variable (IgV) domain of TIM-3.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.