The present disclosure relates to antibody molecules comprising a binding domain specific to CD22, said binding domain comprising SEQ ID NO: 1, 2, 3, 4, 5 and 6 or 7. The disclosure also extends to pharmaceutical compositions comprising said antibody molecules and use of the antibody molecules/compositions in treatment.

Herein is reported an IgG class Fc-region comprising a first variant Fc-region polypeptide and a second variant Fc-region polypeptide, wherein 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 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 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).

Multispecific antigen-binding molecule capable of binding to multiple different antigens, but do not non-specifically crosslink two or more immune cells such as T cells are provided. Methods for producing or enriching a preferred structural form of such multispecific antibody protein, and method for eliminating disulfide heterogeneity of such multispecific antibody proteins are provided. In addition, conformation-specific antibodies that specifically recognize the preferred form of multispecific antibody proteins, and use of the conformation-specific antibodies are provided.

An anti-VEGF single-domain antibody and a VHH chain thereof have been described. A coding sequence for coding the single-domain antibody or the VHH chain thereof, a corresponding expression vector, a host cell capable of expressing the single-domain antibody, and a production method for the single-domain antibody have been presented. The single-domain antibody can specifically recognize human VEGFA and will not cause cross reactions with VEGFB, VEGFC and VEGFD, thus having a good specificity. The single-domain antibody can further recognize VEGFAs of a human, a rat, a rabbit and a monkey, effectively blocks interactions between VEGFA and VEGFR2 and between VEGFA and VEGFR1, has an excellent inhibiting effect on angiogenesis, and has a good stability in a non-preparation condition.

The invention relates to the field of biomedicine, and an anti-pertussis toxin (PT) single domain antibody and derivative protein thereof are disclosed. Specifically, a pertussis toxin-binding protein and use thereof are disclosed.

Described herein are tetravalent binding antibody molecules comprising a FZD receptor binding domain and an LRP5/6 co-receptor binding domain on opposite termini of an Fc domain that activate a Wnt beta-catenin signaling pathway, nucleic acids and vectors encoding said molecules and methods for their use.

The invention relates to the use of a single heavy chain variable domain antibody against human cytomegalovirus protein US28, which antibody binds to the extracellular region including, for example, the N-terminal extracellular region and/or the extracellular loops of US28, for isolation of cells that are infected with cytomegalovirus and/or for ex vivo reactivation of cytomegalovirus in latently infected cells. The invention further relates to the anti-US28 antibody for use in a method of reactivating cytomegalovirus in infected cells, or in a method of eliminating infected cells. The invention further relates to a tissue, organ, or cells such as bone marrow stem cells, from which cells that were infected with CMV have been removed with the use of the anti-US28 antibody.

The present disclosure provides several embodiments of multi-specific antigen binding protein complexes. In some embodiments, the multi-specific antigen binding protein complex is composed of either two or three polypeptide chains that assemble with each other to form het-erodimeric complexes comprising two different Fab regions each capable of binding two different epitopes and comprising an Fc region which is capable of exhibiting Fc effector function, thus having a relatively simple structure compared to certain other multi-specific antibodies. In one embodiment, the multi-specific antigen binding protein complex is activatable as one of the polypeptide chains that compose the protein complex carries a cleavable linker.

Disclosed are isolated single heavy chain variable (V.sub.HH) monoclonal antibodies, antigen binding fragments thereof, and bispecific antibodies include these V.sub.HH monoclonal antibodies, wherein the V.sub.HH monoclonal antibody or antigen binding fragment specifically binds a canine programmed death (PD)-1. Nucleic acid molecules encoding these V.sub.HH monoclonal antibodies and antigen binding fragments are also disclosed, as are expression vectors including these nucleic acid molecules and host cells including these expression vectors. Methods of detecting canine PD-1, and methods of increasing cytotoxic T cell activity and treating tumors are also disclosed.

The application provides polypeptides comprising or essentially consisting of at least one heavy chain variable domain of a heavy chain antibody (V.sub.HH) or a functional fragment thereof, wherein said V.sub.HH or a functional fragment thereof specifically binds to a target protein that is present on and/or specific for a solid tumor, e.g. HER2. The application further provides nucleic acids encoding such polypeptides; methods for preparing such polypeptides; host cells expressing or capable of expressing such polypeptides; compositions, and in particular to pharmaceutical compositions, that comprise such polypeptides, nucleic acids and/or host cells. The application further provides such polypeptides, nucleic acids, host cells and/or compositions, for use in methods for detection, imaging, prognosis and diagnosis of cancer as well as for predicting patient response(s) to therapeutics.