This invention relates to modular proteins that interact with one or more target molecules. The chimeric proteins comprise two or more repeat domains, such as tetratricopeptide repeat domains; inter-repeat loops linking the repeat domains; and one or more peptide ligands. Each peptide ligand is located in an inter-repeat loop or at the N or C terminus of the chimeric protein. The peptide ligands may include heterologous peptidyl binding motifs, such as short linear motifs (SLiMs). Chimeric proteins with various configurations and methods for their production and use are provided.

This invention relates to modular proteins that interact with one or more target molecules. The chimeric proteins comprise two or more repeat domains, such as tetratricopeptide repeat domains; inter-repeat loops linking the repeat domains; and one or more peptide ligands. Each peptide ligand is located in an inter-repeat loop or at the N or C terminus of the chimeric protein. The peptide ligands may include heterologous peptidyl binding motifs, such as short linear motifs (SLiMs). Chimeric proteins with various configurations and methods for their production and use are provided.

The present invention relates to a method of producing recombinant binding proteins with binding specificity for a peptide-MHC (pMHC) complex. The invention also relates to recombinant binding proteins comprising one, two or more designed repeat domain(s), preferably designed ankyrin repeat domain(s), with binding specificity for a pMHC complex, and to such binding proteins which further comprise a binding agent having binding specificity for a protein expressed on the surface of an immune cell, preferably a T-cell. In addition, the invention relates to nucleic acids encoding such binding proteins or repeat domains, pharmaceutical compositions comprising such binding proteins or nucleic acids, and the use of such binding proteins, nucleic acids or pharmaceutical compositions in methods for treating or diagnosing diseases, including cancer, infectious diseases and autoimmune diseases.

Fibronectin type III domains (FN3) that specifically bind to serum albumin, related polynucleotides capable of encoding serum albumin-specific FN3 domains, cells expressing the FN3 domains, as well as associated vectors, detectably labeled FN3 domains and FN3 domains fused to a heterologous moiety are useful in extending the half-life of molecules in diagnostic and therapeutic applications.

Described herein are proteins comprising an ankyrin repeat domain having an N-terminal capping module with improved properties, as well as corresponding protein libraries, pharmaceutical compositions and nucleic acids encoding such proteins. In other aspects, the disclosure relates to methods using such proteins, corresponding protein libraries or pharmaceutical compositions.

The present invention relates to designed ankyrin repeat domains with altered surface residues, as well as to proteins comprising such a designed ankyrin repeat domain, nucleic acids encoding such domains or proteins, methods of preparing such proteins, pharmaceutical compositions comprising such proteins or nucleic acids, and the use of such proteins, nucleic acids or pharmaceutical compositions in the treatment of diseases.

An antibody-like protein is formed by self-assembly of a plurality of ferritin monomers including at least CDR-ferritin monomers having a complementarity-determining region of an antibody fused thereto whereby the antibody-like protein has the complementarity-determining regions present at a high density on the surface or outside thereof so that even some of the complementarity-determining regions, such as HCDR3, etc., can bind to an antigen at an affinity level similar to that of the antibody, and the antibody-like protein possesses a structural feature advantageous for binding simultaneously to a plurality of antigens, and as such, has remarkably improved binding avidity, compared to the antibody. The antibody-like protein of the present invention is an antibody substitute that can be utilized in antibody-based uses and fields.

Wnt signaling antagonist and agonist compositions and methods for their use are provided.

Wnt signaling agonist compositions and methods for their use are provided. Wnt signaling agonists of the invention comprise a frizzled binding moiety, which is fused or conjugated to an LRP5 or LRP6 binding moiety.

The present disclosure relates to polypeptides (also referred to herein as CXCR4 binding molecules or polypeptides) that are directed against the G-coupled protein receptor CXCR4, also known as Fusin or CD184. The invention also relates to nucleic acids encoding such polypeptides; to methods for preparing such polypeptide; to compositions, and in particular to pharmaceutical compositions that comprise such polypeptides and to uses of such polypeptides for therapeutic or diagnostic purposes.