The present disclosure provides human tear lipocalin muteins that specifically bind to LAG-3, which can be used in pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as cancer, infectious diseases, and autoimmune diseases. The present disclosure further shows the human lipocalin muteins can inhibit the binding of LAG-3 to MHC class II on cells overexpressing MHC class II. The present disclosure also concerns methods of making LAG-3 binding lipocalin muteins described herein as well as compositions comprising such lipocalin muteins. The present disclosure further relates to nucleic acid molecules encoding such lipocalin muteins and to methods for generation of such lipocalin muteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of these lipocalin muteins as well as compositions comprising one or more of such lipocalin muteins.

The present invention relates to specific binding members which bind to lymphocyte-activation gene 3 (LAG-3). The specific binding members preferably comprise a LAG-3 antigen-binding site which may be located in two or more structural loops of a CH3 domain of the specific binding member. The specific binding members of the invention find application, for example, in cancer therapy.

The present invention relates to antibody molecules which bind to programmed death-ligand 1 (PD-L1) and lymphocyte-activation gene 3 (LAG-3). The antibody molecules preferably comprise a CDR-based antigen binding site for PD-L1, and a LAG-3 antigen binding site which may be located in two or more structural loops of a CH3 domain of the antibody molecule. The antibody molecules of the invention find application, for example, in cancer therapy.

The present disclosure relates to new serum stable non-immunoglobulin binding proteins based on ubiquitin scaffold that are highly specific for membrane-bound receptor tyrosine kinase (Her2). The disclosure provides novel specific recombinant Her2 binding proteins with high serum stability essentially combined with high temperature stability and high affinity for Her2 for uses in medical applications for diagnosis or therapy of cancer with Her2 overexpression, in particular, for radiopharmaceutical applications.

Affibody polypeptides that specifically bind to B7-H3 are provided. Exemplary anti-B7-H3 affibodies are provided. The affibody polypeptides specifically recognize and bind to B7-H3 with high affinity. The affibodies can be conjugated to contrast agents, including without limitation microbubbles for contrast-enhanced ultrasound imaging

A human CD40L-specific Tn3 molecule and therapeutic uses thereof.

The present application provides fibronectin based scaffold proteins associated with improved stability. The application also relates to stable formulations of fibronectin based scaffold proteins and the use thereof in diagnostic, research and therapeutic applications. The application further relates to cells comprising such proteins, polynucleotides encoding such proteins or fragments thereof, and to vectors comprising such polynucleotides.

Certain embodiments of the invention provide helix sequences that have affinity for Death Receptor 5 (DR5). Certain embodiments of the invention provide an isolated anti-DR5 polypeptide (e.g., affibody for DR5) that modulates the activity and/or conformation of DR5. Certain embodiments of the invention provide methods of noncompetitively inhibiting DR5 and/or treating a fatty liver disorder.

The present invention provides binder directed to and binding to a DPP3 protein or functional derivative thereof and its use in a method of prevention or treatment of diseases or acute conditions in a patient, wherein said disease or acute condition is associated with oxidative stress. With this context, specifically the present invention provides a binder being directed to and binding to an epitope according to SEQ ID NO.: 2, wherein said epitope is comprised in a DPP3 protein or a functional derivative thereof, and wherein said DPP3 binder recognizes and binds to at least three amino acids of SEQ ID NO.: 2.

The present disclosure provides human tear lipocalin muteins that specifically bind to LAG-3, which can be used in pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators for the treatment or prevention of human diseases such as cancer, infectious diseases, and autoimmune diseases. The present disclosure further shows the human lipocalin muteins can inhibit the binding of LAG-3 to MHC class II on cells overexpressing MHC class II. The present disclosure also concerns methods of making LAG-3 binding lipocalin muteins described herein as well as compositions comprising such lipocalin muteins. The present disclosure further relates to nucleic acid molecules encoding such lipocalin muteins and to methods for generation of such lipocalin muteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of these lipocalin muteins as well as compositions comprising one or more of such lipocalin muteins.