The disclosure relates to an anti-VEGF-PD1 bispecific antibody with a novel structure and a use thereof, which belongs to the technical field of molecular immunology. The CDR-H1 in the heavy chain variable region of the antibody is an amino acid sequence expressed by SEQ ID NO: 1, the CDR-H2 is an amino acid sequence expressed by SEQ ID NO: 2, the CDR-H3 is an amino acid sequence expressed by SEQ ID NO: 3, and the CDR-L in the light chain variable region of the antibody is an amino acid sequence expressed by SEQ ID NO:4.

An object of the present invention is to provide an antibody composition, which exhibits an effector function more specifically for a target cell coexpressing two types of antigens that are different from each other and damages the target cell, and also can maintain affinity for the individual target antigens sufficiently high. The present invention relates to an antibody composition against a first antigen and a second antigen that are different from each other, including a first IgG half-molecule and a second IgG half-molecule and relates to the first IgG half-molecule and the second IgG half-molecule constituting the antibody composition.

Disclosed herein are bispecific antibodies comprising a first targeting moiety that specifically binds to CD47 and a second targeting moiety that specifically binds to EpCAM or EGFR and, pharmaceutical compositions and methods comprising the bispecific antibodies.

Proteins that bind IL-1α and IL-1β are described along with their use in compositions and methods for treating, preventing, and diagnosing IL-1-related disorders and for detecting IL-1α and IL-1β in cells, tissues, samples, and compositions.

The present application is directed to heterodimeric antibodies and methods of use.

A multi-specific antibody-like protein having a first monomer comprising a first binding monomer, a CH1 domain, a first hinge, a first CH2 domain, and a first CH3 domain, a second monomer comprising a second binding monomer, a CL domain, a second hinge, a second CH2 domain, and a second CH3 domain, wherein the first binding monomer and a second binding monomer are configured to form a dimer, wherein the first monomer and the second monomer are covalently paired through at least one disulfide bond between the CH1 domain and the CL domain and at least one disulfide bond between the first hinge and the second hinge, wherein the first monomer and second monomer may comprise optionally a first binding domain (D1) and a second binding domain (D2), and a fourth binding domain (D4) and a fifth binding domain (D5), and wherein the multi-specific antibody-like protein is at least bi-specific.

Antibody-based binding agents derived from human and camelid immunoglobulins are described, as well as strains of yeast engineered to secrete the binding agents, and methods of treating and preventing Clostridium difficile infections using the engineered strains of yeast. These binding agents recognize and bind with specificity to Clostridium difficile toxin A and/or toxin B and in some cases exhibit toxin neutralizing activity. The binding agents include camelid V.sub.HH peptide monomers, linked groups of V.sub.HH peptide monomers, V.sub.HH peptide monomers joined to antibody Fc domains, and V.sub.HH peptide monomers joined to IgG antibodies.

Methods and compounds for conferring site-specific or local immune privilege.

A PD-1/CD4 bispecific protein for preventing, suppressing the progression of symptoms of or the recurrence of or treating autoimmune diseases, hematological cancer and the like, which can reduce the induction of cytokine production or release upon administration, and thus is expected to inhibit the development of infusion reactions or cytokine release syndrome after administration.

The present invention provides antibody-based chemically induced dimerizers (AbCIDs) comprising an antibody domain that recognizes a chemical epitope created by the binding of an IMiD to a binding partner, such as cereblon, and methods to rapidly generate such AbCIDs. Several aspects described herein relate to systems, compositions, and methods including components of a chemically induced dimerizer (CID), such as an antibody chemically induced dimerizer (AbCID).