Provided herein are novel GPC3 binding domains, and antibodies that include such GPC3 binding domains (e.g., anti-GPC3×anti-CD3). Also provided herein are methods of using such antibodies for the treatment of GPC3-associated cancers.

The invention relates to novel TNF family ligand trimer-containing antigen binding molecules comprising (a) at least one moiety capable of specific binding to a target cell antigen, (b) a polypeptide comprising three ectodomains of a TNF ligand family member or fragments thereof that are connected to each other by peptide linkers and (c) a Fc domain composed of a first and a second subunit capable of stable association, and to methods of producing these molecules and to methods of using the same.

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

Chimeric Fc fusion polypeptides are provided, optionally including biologically active polypeptides for therapeutic use.

The present disclosure relates to compositions and methods of engineered Fc-antigen binding domain constructs, where the Fc-antigen binding domain constructs include at least two Fc domains and at least one antigen binding domain.

The invention relates to a novel hetero-dimeric multi-specific format of multiple antibody variable domains comprising a core of two split variable domain pairs wherein both variable light domains and the two cognate variable heavy domains are positioned in tandem on two separate protein chains, respectively.

Anti-CD47/anti-TIGIT bispecific antibody, a preparation method thereof and application thereof. The bispecific antibody comprises: (a) a first antigen binding part, comprising heavy chain variable region (V.sub.H) and light chain variable region (V.sub.L), V.sub.H and V.sub.L forming an antigen binding site that specifically binds to CD47; and (b) a second antigen binding part, comprising a single domain antibody (sdAb) that specifically binds to TIGIT, wherein the first antigen binding part and the second antigen binding part are fused with each other. The bispecific antibody can block two modes of tumor immune escape at the same time, thus having a good effect in tumor immunotherapy.

A trispecific inhibitor for treating cancer includes a first targeting domain having a binding specificity conferred by a VEGF binding antagonist; a second targeting domain having a binding specificity conferred by an immune checkpoint regulator binding antagonist; and a third targeting domain having a binding specificity conferred by a Tie2 tyrosine kinase receptor binding antagonist. The targeting domains may contain one or more antibody variable regions, peptide inhibitors, dominant negative proteins, small molecule drugs or combinations thereof.

By replacing the antigen-binding domain, the present inventors discovered novel polypeptide complexes that retain BiTE's strong anti-tumor activity and excellent safety properties, as well as have long half-life in blood and can damage various different target cells.

The present invention is directed to novel heterodimeric antibodies.