The present invention provides novel human fins related tyrosine kinase 3 (FLT3) antigen binding proteins, such as antibodies, having improved FLT3 binding affinity, and/or anti-tumor activity. The FLT3 antibodies of the invention were generated by mutation of a parent FLT3 antibody and tested in in vitro in binding assays as well as in vivo in a mouse tumor model and in human patient tumor samples. The antibodies of the invention are provided as monospecific constructs or in a bispecific FLT3×CD3 antibody format and show excellent target affinity and/or tumor cell killing. The present invention also relates methods for producing the antigen binding proteins of the invention as well as nucleic acids encoding them, vectors for and host cells for their expression. The invention further relates to methods of treating or diagnosing a disease such as leukemia using an FLT3 antigen binding protein (ABP) of the invention.

Compositions containing multivalent and monovalent multispecific complexes having scaffolds such as antibodies that support such binding functionalities are described. The use of and methods of compositions containing multivalent and monovalent multispecific complexes having scaffolds, such as antibodies, that support such binding functionalities are also described.

New monoclonal antibodies for use in pre-treatments prior to stem cell transplantations are disclosed. The antibodies may be used to kill malignant cells and/or stem cells prior to stem cell transplantation. The antibodies can be used for treating hematologic diseases and hematological malignancies, such as leukemia and MDS. The antibodies of the invention might be multi- or bi-specific, such as BiTEs.

The present invention concerns compositions and methods of use of bispecific antibodies comprising at least one anti-TNF-α antibody or antigen-binding fragment thereof and at least one anti-IL-6 antibody or antigen-binding fragment thereof. Preferably, the bispecific antibody is in the form of a DNL® complex. The anti-TNF-α or anti-IL-6 antibodies may comprise specific CDR sequences disclosed herein. The compositions and methods are of use to treat autoimmune disease, immune system dysfunction or inflammatory disease, as disclosed herein.

The present disclosure relates to engineered IgG Fc constructs and uses thereof.

The present application relates to antibody molecules that bind both PD-L1 and CD 137 and are able to induce agonism of CD137. The antibody molecules comprise a CDR-based binding site for PD-L1, and a CD137 antigen-binding site that is located in a constant domain of the antibody molecule. The antibody molecules of the invention find application, for example, in the treatment of diseases, such as cancer.

The present invention provides a bispecific antibody. The bispecific antibody provided by the present invention comprises a single-chain unit and a monovalent unit, wherein the single-chain unit has a specific binding capability against surface antigen CD3 of an immune cell; the monovalent unit has a specific binding capability against the surface antigen EpCAM of a tumor cell; the single-chain unit comprises a single-chain variable fragment ScFv fused with an Fc fragment; and the monovalent unit comprises a light chain and heavy chain pair. The present invention also provides a preparation method of the bispecific antibody and pharmaceutical use of these antibodies.

The present invention features inter alia polypeptides comprising heterodimeric Fc regions. In addition, the instant invention provides methods for treating or preventing a disease or disorder in subject by administering the polypeptides of the invention to said subject.

The present invention relates to compositions and methods of engineered IgG Fc constructs, wherein said Fc constructs include one or more Fc domains.

The present disclosure concerns modulators of the NLRP3 inflammasome pathway, in particular an NLRP3 inflammasome modulator which is capable of binding to both of IL-IR1 and NLRP3.