Disclosed herein are multi-specific antibody constructs that simultaneously bind two tumor cell surface antigens, GD2 and B7H3. The monovalent arms targeting GD2 and B7H3 are each low to moderate affinity for their respective antigens. The multi-specific antibodies disclosed herein bind to target tumor cells when both arms of the antibody bind to their antigens, resulting in high specificity of the antibody for GD2 and B7H3 expressing tumor cells.

Disclosed are antibodies, including antibody drug conjugates, that specifically bind to NTB-A. Also disclosed are methods for using the anti-NTB-A antibodies to detect or modulate activity of (e.g., inhibit proliferation of) an NTB-A-expressing cell, as well as for diagnoses or treatment of diseases or disorders (e.g., cancer) associated with NTB-A-expressing cells, such as multiple myeloma, non-Hodgkin lymphoma and acute myeloid leukemia.

The present disclosure provides an antibody, antigen binding fragment thereof, or an antibody conjugate thereof, useful in methods for treatment or diagnosis of conditions characterized by the expression of PTGFRN. The antibodies or antigen binding fragments thereof may also be used in imaging or detecting cells that express PTGFRN.

The present invention relates to a process for preparing antibody-drug conjugates and to antibody-drug conjugates wherein therapeutic moieties are conjugated to one or more engineered cysteines as well as to one or more reduced interchain cysteines via a cleavable or non-cleavable linker.

The present invention relates to dimers comprising a first polypeptide and a second polypeptide, wherein each of said first and second polypeptide comprises at least one immunoglobulin single variable domain (ISVD) and a C-terminal extension comprising a cysteine moiety (preferably at the C-terminus), wherein said first polypeptide and said second polypeptide are covalently linked via a disulfide bond between the cysteine moiety of said first polypeptide and the cysteine moiety of said second polypeptide, in which the dimer outperformed the benchmark constructs, e.g. cognate multivalent and multispecific constructs, in various assays. The present invention provides methods for making the dimers of the invention.

The invention relates generally to polypeptides that include at least a first cleavable moiety (CM1) that is a substrate for at least one matrix metalloprotease (MMP) and at least a second cleavable moiety (CM2) that is a substrate for at least one serine protease (SP), to activatable antibodies and other larger molecules that include these polypeptides that include at least a CM1 that is a substrate for at least one MMP protease and at least a CM2 that is a substrate for at least one SP protease, and to methods of making and using these polypeptides that include at least a CM1 that is a substrate for at least one MMP protease and at least a CM2 that is a substrate for at least one SP protease in a variety of therapeutic, diagnostic and prophylactic indications.

Certain universal neoepitopes and cancer specific neoepitopes and methods therefor are presented that may be used in immunotherapy and cancer diagnosis. Preferred therapeutic and diagnostic compositions include antibodies or fragments thereof that bind to neoepitopes on cancer cells.

Antibodies, antigen-binding fragments, and conjugates (e.g., antibody-drug conjugates such as those comprising eribulin) thereof that bind to mesothelin are disclosed. The disclosure further relates to methods and compositions for use in the treatment of cancer by administering the compositions provided herein.

Provided is a mutant of an antibody or fragment thereof, characterized in that the antibody or fragment thereof contains a light-chain constant region, and according to the Kabat numbering system, the amino acid at position 166 is mutated to cysteine.

The invention relates to compounds of general structure (1): Q-(L.sup.1).sub.n-(L.sup.2).sub.o-(L.sup.3).sub.p-(L.sup.4).sub.q-D (1), wherein Q is a click probe; D is a cytotoxin containing an enediyne moiety; L.sup.1, L.sup.2, L.sup.3 and L.sup.4 are each individually linkers that together link Q to D; n, o, p and q are each individually 0 or 1, provided that n+o+p+q=1, 2, 3 or 4, wherein D comprises a functional moiety (21): ##STR00001##
wherein R.sup.12═C.sub.1-3-alkyl, the wavy line indicates the connection to the remainder of the cytotoxin, and wherein D is conjugated to (L.sup.4).sub.q by replacing the amine H atom, and to conjugates obtainable by reacting the compound according to the invention with a protein comprising a click probe F capable of reacting with click probe Q in a click reaction. The invention further relates to a bioconjugate according to general structure (2): Pr-[(L.sup.6)-Z-(L.sup.1).sub.n-(L.sup.2).sub.o-(L.sup.3).sub.p-(L.sup.4).sub.q-D].sub.xx (2), wherein Z is a connecting group that is formed in a click reaction, L.sup.6 is a linker that links Z to Pr and Pr is a (glyco)protein.