Provided herein are bispecific antibodies that bind to B7H3 and NKG2D (e.g., antibodies having Fab-scFv-Fc, Fab.sub.2-scFv-Fc, mAb-scFv and stackFab.sub.2-scFv-Fc formats) or antigen binding fragments thereof. Also provided herein are polynucleotide sequences encoding a chain and/or a CDR of a bispecific antibody of the disclosure; and vectors and cells comprising such polynucleotide sequences. Also provided herein are methods of treating cancer in a subject with a bispecific antibody of the disclosure.

The present invention relates to chimeric binding agents and compositions comprising the same. The invention further relates to polynucleotides encoding the chimeric binding agent and vectors and host cells comprising the same. The invention further relates to methods of using the chimeric binding agents to mediate antibody-dependent cellular cytotoxicity of epithelial cancer cells and methods of treating epithelial cell cancers.

An injector includes an injector housing, an activation button assembly movably mounted to the injector housing and operatively connected to the injection needle, and a cartridge door movably mounted to the injector housing between an open position and a closed position. A deflectable interference member engaging the rear end flange of the cartridge has a resting position configured to limit an insertion depth of a cartridge into an interior channel of the cartridge door to a sealed position, wherein the cartridge piercing needle does not fully penetrate a pierceable septum of the cartridge. The cartridge door includes an interior channel having a cartridge mounted therein. The cartridge includes a substance to be dispensed. The substance includes an anti-C5 antibody or antigen binding fragment thereof, and optionally further includes a recombinant human hyaluronidase enzyme. A method of treating a complement associated condition using an injector thereof. A method of dispensing a substance from an injector thereof.

The present invention provides antigen-binding molecules containing (i) an antigen-binding domain whose antigen-binding activity varies depending on ion concentration conditions, (ii) an FcγR-binding domain having Fcγ RIIb-selective binding activity, and (iii) an FcRn-binding domain having FcRn-binding activity under an acidic pH range condition, and methods of decreasing plasma antigen concentration as compared to before administering the molecule, which include the step of administering the molecule.

The development and use of an anti-OX40 antibody and immune cell activation is disclosed. The anti-OX40 antibody or a fragment of the anti-OX40 antibody retains strong binding to human OX40 or Rhesus Monkey OX40. The anti-OX40 antibody or a fragment of the anti-OX40 antibody more effectively activates T cells, generates stronger immune responses, and improves anti-tumor activity.

Described herein methods of using antigen-binding constructs to treat HER2+ tumors in a subject such as breast, lung, or head and neck tumors. In some aspects, the tumor volume in the subject after receiving at least seven doses of the antigen binding construct is less than the tumor volume of a control subject receiving an equivalent amount of trastuzumab. In some aspects, the survival of the subject receiving the antigen binding construct is increased as compared to a control subject receiving an equivalent amount of a non-specific control antibody or as compared to a control subject not receiving treatment.

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 present disclosure relates to proteins that bind to CD83 and uses thereof, for example, in therapy, prophylaxis, diagnosis, or prognosis.

The invention provides a dual VEGF/PDGF antagonist comprising a VEGF antagonist linked to a PDGF antagonist. The VEGF antagonist is an antibody to a VEGF or VEGFR or is a VEGFR extracellular trap segment (i.e., a segment from the extracellular region of one or more VEGFR receptors that inhibits binding of at least one VEGFR to at least one VEGF). The PDGF antagonist is an antibody to a PDGF or PDGFR or is a PDGFR extracellular trap segment (i.e., segment from the extracellular region of one or more PDGFRs, which inhibits binding of at least one PDGFR and at least one PDGF). The dual antagonist is preferably conjugated to a half-life extending moiety, such as a HEMA-PC polymer. The dual antagonist is particularly useful for treating wet aged related macular degeneration.

CD37-specific bispecific antibody molecules binding to different epitopes of the human CD37 antigen which bispecific antibody molecules have enhanced Fc-Fc interactions upon binding to CD37 on the cell surface. The invention also relates to the monoclonal parental antibodies from which the first or the second binding region of the bispecific antibody molecules is obtained. The invention also relates to pharmaceutical compositions containing these molecules and the treatment of cancer and other diseases using these compositions.