The present disclosure relates to antibody molecules that bind epidermal growth factor receptor (EGFR) and/or c-Met and conjugates containing these antibody molecules. The antibody molecules and conjugates find application in the treatment of cancer, for example.

The present disclosure relates to hand, foot, and mouth disease vaccines and immunogenic compositions having one or more antigens from at least one virus that causes hand, foot, and mouth disease in humans, and methods of manufacture, formulation, and testing, and uses thereof.

Herein is reported an IgG class Fc-region comprising a first variant Fc-region polypeptide and a second variant Fc-region polypeptide, wherein a) the first variant Fc-region polypeptide is derived from a first parent IgG class Fc-region polypeptide and the second variant Fc-region polypeptide is derived from a second parent IgG class Fc-region polypeptide, whereby the first parent IgG class Fc-region polypeptide is identical to or different from the second parent IgG class Fc-region polypeptide, and b) the first variant Fc-region polypeptide differs from the second variant Fc-region polypeptide in one or more amino acid residues other than those amino acid residues in which the first parent IgG class Fc-region polypeptide differs from the second parent IgG class Fc-region polypeptide, and c) the IgG class Fc-region comprising the first variant Fc-region polypeptide and the second variant Fc-region polypeptide has an affinity to a human Fc-receptor that is different than that of an IgG class Fc-region comprising the first parent IgG class Fc-region polypeptide of a) and the second parent IgG class Fc-region polypeptide of a), wherein either the first Fc-region polypeptide or the second Fc-region polypeptide or both Fc-region polypeptides comprise independently of each other one of the following mutations or combination of mutations: T307H, or Q311H, or E430 H, or N434H, or T307H and Q311H, or T307H and E430H, or T307H and N434A, or T307H and N434H, or T307Q and Q311H, or T307Q and E430H, or T307Q and N434H, or T307H and Q311H and E430H and N434A, or T307H and Q311H and E430H and N434H, or T307H and Q311H and E430H and N434Y, or T307Q and Q311H and E430H and N434A, or T307Q and Q311H and E430H and N434H, or T307Q and Q311H and E430H and N434Y, or T307Q and V308P and N434Y and Y436H, or T307H and M252Y and S254T and T256E, or T307Q and M252Y and S254T and T256E, or Q311H and M252Y and S254T and T256E, or E430 H and M252Y and S254T and T256E, or N434H and M252Y and S254T and T256E, or T307H and Q311H and M252Y and S254T and T256E, or T307H and E430H and M252Y and S254T and T256E, or T307H and N434A and M252Y and S254T and T256E, or T307H and N434H and M252Y and S254T and T256E, or T307Q and Q311H and M252Y and S254T and T256E, or T307Q and E430H and M252Y and S254T and T256E, or T307Q and N434H and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434A and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434H and M252Y and S254T and T256E, or T307H and Q311H and E430H and N434Y and M252Y and S254T and T256E, or T307Q and Q311H and E430H and N434A and M252Y and S254T and T256E, or T307Q and Q311H and E430H and N434H and M252Y and S254T an

The present invention provides antibodies or antibody fragments binding to human IL-17C. In particular, it relates to antibodies or antibody fragments that bivalently bind to homodimeric IL-17C.

The present invention relates to bispecific antigen binding proteins, methods for their production, pharmaceutical compositions containing said antibodies, and uses thereof.

The present invention is directed to novel heterodimeric antibodies.

The present invention discloses novel monoclonal antibodies and functional fragments thereof that specifically bind to SLeA carbohydrate antigen with high specificity and selectivity. The invention further provides compositions comprising the antibodies or fragments thereof as well as uses of the antibodies, fragments and compositions.

An scFv-Fc dimer binds and neutralizes TGFβ1 selectively and with high affinity and avidity. The scFv region may comprise the same VH and VL domains or CDR regions as metelimumab. The unique combination of their smaller size, high selectivity, potency against TGFβ1, and long in vivo half-life makes the scFv-Fc dimers ideal candidates for therapeutic applications.

This disclosure provides therapeutic methods for treating cancer including combination therapy with a multimeric anti-DR5 antibody and a cancer therapy, e.g., radiation, an anthracycline, a folic acid analog, a platinum-based agent, a taxane, a topoisomerase II inhibitor, a SMAC mimetic, a vinca alkaloid, a Brutons tyrosine kinase (BTK) inhibitor, a phosphoinositide 3-kinase delta (PI3Kδ) inhibitor, a myeloid cell leukemia-1 (Mcl-1) inhibitor, or any combination thereof.

Disclosed are compositions and methods for targeted treatment of TLR9-expressing cancers, such as primary human MDS progenitors and hematopoietic stem cell (HSC), as well as lung and breast cancers. In particular, multispecific, multivalent antibodies are disclosed that are able to engage T-cells to destroy TLR9-expressing malignant cells.