Disclosed are an antibody or an antigen binding fragment or chimeric antigen receptor thereof which binds to Claudin18.2, and a preparation method and a use. The chimeric antigen receptor sequentially comprises the antibody or the antigen binding fragment thereof which binds to the Claudin18.2 antigen, an extracellular hinge region, a transmembrane region and an intracellular signaling region. The antibody or the antigen binding fragment or chimeric antigen receptor thereof has stronger affinity and killing capability for cells secreting Claudin18.2, and a better tumor inhibiting effects.

The invention relates to antibodies against SIRPα that are suitable for use in anti-cancer therapy. The invention also relates to the use of the anti-SIRPα antibodies in the treatment of human solid tumours and haematological malignancies, optionally in combination with other anti-cancer therapies.

The present invention relates to neutralizing antibodies of the human pituitary adenylate cyclase activating polypeptide type I receptor (PAC1) and pharmaceutical compositions comprising such antibodies. Methods of treating or preventing headache conditions, such as migraine and cluster headache, using the neutralizing antibodies are also described.

The present disclosure relates to immunoglobulins that bind FcγRIIb+ B cells and coengage CD19 on the cell's surface and an FcγRIIb on the cell's surface, methods for their generation, and methods for using the immunoglobulins for the treatment of an IgG4-related disease.

The invention relates to polypeptides, antibodies, and antigen-binding fragments thereof, that comprise an engineered cysteine for site-specific conjugation.

Disclosed is a library consisting essentially of a plurality of antigen-binding molecules differing in sequence from each other, wherein an antigen-binding domain in each of the antigen-binding molecules comprises at least one amino acid residue that changes the antigen-binding activity of the antigen-binding molecule depending on ion concentration conditions. Also disclosed are a composition comprising a plurality of polynucleotide molecules each encoding the antigen-binding molecules, a composition comprising a plurality of vectors each comprising the polynucleotide molecules, a method for selecting the antigen-binding molecules, a method for isolating the polynucleotide molecules, a method for producing the antigen-binding molecules, and a pharmaceutical composition comprising any of the antigen-binding molecules.

The present invention relates to engineered anti-TNFR superfamily member antibodies having enhanced agonistic activity and methods of using them.

Provided are compositions for increasing the half-life of a polypeptide or polypeptides in a livestock animal and methods of their use. The compositions involve variant IgG Fc regions.

The present invention provides isolated monoclonal antibodies, particularly human antibodies, that bind to human Cluster of Differentiation 73 (CD73) with high affinity, and inhibit the activity of CD73, and optionally mediate antibody dependent CD73 internalization. Nucleic acid molecules encoding the antibodies of the invention, expression vectors, host cells and methods for expressing the antibodies of the invention are also provided. Immunoconjugates, bispecific molecules and pharmaceutical compositions comprising the antibodies of the invention are also provided. The invention also provides methods for inhibiting the growth of a tumor cell expressing CD73 using the antibodies of the invention, including methods for treating various cancers.

The present disclosure relates to protein molecules that specifically bind to CD3, which may have at least one humanized CD3-binding domain. Such molecules are useful for the treatment of cancer. The protein molecule binding to CD3 may have a second binding domain that binds to another target. In one embodiment, multispecific polypeptide molecules bind both tumor antigen-expressing cells and the CD3 subunit of a T-cell receptor complex on T-cells to induce target-dependent T-cell cytotoxicity, activation, and proliferation. The disclosure also provides pharmaceutical compositions comprising the CD3-binding poypeptide molecules, nucleic acid molecules encoding these polypeptides and methods of making these molecules.