The present disclosure relates generally to anti-CD39 antibodies, including antibody-drug conjugates comprising the antibodies, and methods of their use.

The present invention relates to amyloid-beta (Aβ) binding proteins. Antibodies of the invention have high affinity to Aβ(20-42) globulomer or any Aβ form that comprises the globulomer epitope. Method of making and method of using the antibodies of the invention are also provided.

A novel anti-vascular endothelial growth factor (VEGF) antibody having a strong binding affinity for VEGF and capable of inhibiting in vivo tumor growth and a composition for the treatment of cancer, containing the same. The antibody shows a remarkable binding property to human and mouse VEGF, suppresses the proliferation and permeability of a human umbilical vein endothelial cell (HUVEC) and inhibits tumor growth, and thus can be useful as an antibody for the treatment of cancer.

The present application discloses a novel anti-human IL-17 monoclonal antibody obtained by phage antibody library screening and genetic engineering, or a functional fragment thereof, a polynucleotide encoding the monoclonal antibody or the functional fragment thereof, a vector comprising the polynucleotide, a host cell comprising the polynucleotide or vector, a method for preparing and purifying the antibody, and use of the antibody or the functional fragment thereof.

Provided are an IL-5 antibody, an antigen binding fragment thereof, and a medical application therefor. The present invention comprises a mouse-derived antibody containing an IL-5 antibody CDR region, a chimeric antibody, a humanized antibody, and a pharmaceutical composition comprising said IL-5 antibody and said antigen binding fragment thereof, as well as the use of the pharmaceutical composition as a drug.

Antigen binding proteins that bind to human IL-23 protein arc provided. Nucleic acids encoding the antigen binding protein, vectors, and cells encoding the same as well as use of IL-23 antigen binding proteins for diagnostic and therapeutic purposes arc also provided.

Described herein are materials and methods for treating subjects having a HER-3 associated disease, by administering a first agent that binds to HER-3, in combination with a second agent that binds and/or inhibits another member of the HER family. The first and the second agent may be a biologic, such as an antigen-binding protein, or a small molecular tyrosine kinase inhibitor, for example.

Described herein is the use of rabbit hybridoma technology, along with a panel of truncated mesothelin domain fragments, to identify anti-mesothelin mAbs that bind specific regions of mesothelin. In one aspect of the present disclosure, the rabbit mAbs bind an epitope that is not part of Region I. In particular, the identified mAbs (YP187, YP223, YP218 and YP3) bind either Region II (391-486), Region III (487-581) or a native conformation of mesothelin with subnanomolar affinity. These antibodies do not compete for binding with the mesothelin-specific immunotoxin SS1P or mesothelin-specific antibody MORAb-009. In another aspect, disclosed is a high-affinity rabbit mAb that binds Region I of mesothelin (YP158). YP158 binds native mesothelin protein in cancer cells and tissues with high affinity and specificity.

Disclosed are compositions and methods relating to antibodies that bind soluble Major Histocompatibility Complex class I chain-related (sMIC). Specifically, disclosed are antibodies designed or selected to inhibit sMIC (e.g. to neutralize sMIC) shed from MIC+ tumors. Further disclosed are methods of using the antibodies for the treatment of MIC-positive cancers.

Bispecific antibodies against CD3epsilon and ROR1 are useful for use in the treatmentof ovarian cancer.