Anti-Kv1.3 antibodies (mAbs), particularly mAbs that specifically bind to Kv1.3 with high affinity and/or inhibit Kv1.3 function, are disclosed. The amino acid sequences of the CDRs of the light chains and the heavy chains, as well as consensus sequences for these CDRs, of these anti-Kv1.3 mAbs are provided. Additionally, canonical structures for CDRs in the VH and VL regions of anti-Kv1.3 antibodies are provided. The disclosure also provides nucleic acid molecules encoding the anti-Kv1.3 mAbs, expression vectors, host cells, methods for making the anti-Kv1.3 mAbs, and methods for expressing the anti-Kv1.3 mAbs. Finally, methods of using the anti-Kv1.3 mAbs as therapeutics, such as for preventing or treating an autoimmune disorder, are disclosed.

A fusion protein comprises a first nanocage monomer subunit of a nanocage monomer; and a bioactive moiety linked to the first nanocage monomer subunit; wherein the fusion protein self-assembles with a protein comprising a second nanocage monomer subunit to form a nanocage monomer.

Objective of the present invention is to provide a novel monoclonal antibody against Nav1.7. The present invention discloses a monoclonal antibody against Nav1.7 or its antibody fragment, having specific six CDRs (CDR1 to CDR3 of a heavy chain and CDR1 to CDR3 of a light chain) or specific heavy/light chain variable regions. The monoclonal antibody and the like can be used for treating or preventing pain, pruritus and so on.

The present invention relates to multispecific antibodies, for example bispecific antibodies, and methods for the isolation or purification of the same. The antibodies of the invention comprise first and second heavy chain-light chain pairings wherein each pairing comprises a distinct selective recognition site including one or more amino acid residues contributed from the heavy chain and the light chain of the pairing. The first and second selective recognition sites differ by at least one amino acid residue and can be differentially bound by first and second selective recognition agents according to the methods of the invention. Such methods facilitate the production of antibody preparations enriched for multispecific antibodies having the correct functional heavy chain-light chain pairings.

The present invention relates to bispecific or biparatopic antigen binding proteins, polynucleotides encoding the same, and methods of making bispecific or biparatopic antigen binding proteins. Also described herein is a method to assemble IgG-like biparatopic or bispecific antibodies from VH only antigen binding proteins.

The present invention relates to anti-HIV antibodies. Also disclosed are related methods and compositions. HIV causes acquired immunodeficiency syndrome (AIDS), a condition in humans characterized by clinical features including wasting syndromes, central nervous system degeneration and profound immunosuppression that results in life-threatening opportunistic infections and malignancies. Since its discovery in 1981, HIV type 1 (HIV-1) has led to the death of at least 25 million people worldwide.

The present invention provides multispecific multivalent antigen binding molecules that can function as WNT agonist, WNT enhancer, and WNT super agonist molecules by binding and activating at least one or two WNT receptors and a WNT enhancer.

The present invention provides binding agents comprising at least two binding domains, wherein a first binding domain has specificity for CLDN18.2 and a second binding domain has specificity for CD3, and methods of using these binding agents or nucleic acids encoding therefor for treating cancer.

The present invention relates to receptor tyrosine kinase-like orphan receptor 1 (ROR1) specific antigen binding molecules and associated fusion proteins and conjugates. In a further aspect, the present invention relates to conjugated immunoglobulin-like shark variable novel antigen receptors (VNARs).

The present invention relates to multispecific antibodies, methods for their production, pharmaceutical compositions containing said antibodies and uses thereof.