Novel neoantigen-eliciting antibody drug conjugates are disclosed. These compounds or pharmaceutically acceptable salts, hydrates, solvates, isomers, or tautomers thereof are useful for the treatment of disorders, including but not limited to pancreatic cancer and other check point positive cancers. More particularly, these compounds may comprise biologically active polypeptides or hormones modified to include the attachment of therapeutic compounds using linkers. The compounds of the disclosure, or pharmaceutically acceptable salts, hydrates, solvates, isomers, or tautomers thereof, also comprise therapeutic compounds connected to linkers.

The present invention relates to bispecific antibodies (bsAbs) and the use of such antibodies in the treatment of disease in subjects. Moreover, advantageous treatment regimens are provided for the treatment of B-cell Non-Hodgkin Lymphoma (B-NHL).

The disclosure provides multimeric proteins comprising three, four, or more monomer polypeptides, each comprising a first 4-1BB-targeting moiety, an oligomerization moiety, and optionally a linker. The monomer polypeptide may further comprise one or more additional targeting moieties. The oligomerization moiety promotes the trimerization, tetramerization, or higher state of oligomerization of the monomer polypeptides. Such multimeric proteins can be used in many pharmaceutical applications, for example, as anti-cancer agents and/or immune modulators. The present disclosure also concerns methods of making the multimeric proteins described herein as well as compositions comprising such multimeric proteins. The present disclosure further relates to nucleic acid molecules encoding such multimeric proteins and methods for the generation of such multimeric proteins and nucleic acid molecules. In addition, the application discloses therapeutic and/or diagnostic uses of such multimeric proteins as well as compositions comprising one or more of such multimeric proteins.

The disclosure provides antibody molecules that bind to TCR VP regions and multispecific molecules comprising said antibody molecules. Additionally, disclosed are nucleic acids encoding the same, methods of producing the aforesaid molecules, pharmaceutical compositions comprising aforesaid molecules, and methods of treating a cancer using the aforesaid molecules.

The present disclosure provides anti-DLL3 binding constructs, such as anti-DLL3 single domain antibodies, as well as polynucleotide encoding the same. Further provided are multispecific binding constructs comprising the DLL3 binding domains described herein and polynucleotides encoding the same. Methods of production of the anti-DLL3 binding constructs and their use in the treatment of cancer are also provided herein.

The present describes monoclonal antibody to MUC1*.

The present invention relates to a low-molecular antibody composed of D-amino acids and achiral glycine, a method for producing the same, and a method for screening the low-molecular antibody using a mirror-image target protein corresponding to a target protein and an antibody library.

The invention relates to multispecific antibody constructs comprising Fab fragments having a particular set of mutations at the interface of the CH1 and CL domains, the mutations preventing heavy chain/light chain mispairing.

The invention provides antibodies that specifically bind human α-synuclein with a high affinity and reduces α-synuclein spreading in vivo, recombinant polypeptides comprising said antibodies or antigen-binding fragment thereof and methods for generating such polypeptides, as well as compositions and methods for generating α-synuclein antibodies, and methods of using α-synuclein antibodies for the treatment of diseases of the central nervous system, in particular alpha-synucleinopathies.

The present invention relates to the field of virology, more specifically to the field of zoonotic Coronaviruses. Specifically, the invention provides for binding agents specific for the spike protein receptor binding domain (RBD) of the SARS-Corona virus, more specifically for an epitope of the RBD present in a broad range of Sarbecoviruses and mutants thereof, even more specifically present in SARS-Cov and SARS-CoV-2 viruses. More specifically, the invention relates to compositions comprising antibodies capable of specifically binding and neutralizing SARS-Corona viruses. More specifically the invention relates to compositions comprising single domain antibodies, or specifically VHHs, and compositions comprising multivalent binding agents comprising IgG Fc fusions thereof, specifically VHH-Fc fusions thereof, even more specifically comprising heavy chain only VHH72-S56A-IgG1-Fc fusions, or compositions comprising any humanized form of any one thereof, and are capable of specifically binding and neutralizing SARS-Corona viruses, specifically SARS-Cov-2 virus. The compositions are useful in the diagnosis of Sarbecoviruses, and specifically SARS-CoV-2 virus, and in prophylactic and/or therapeutic treatment of a condition resulting from infections with Sarbecoviruses, specifically SARS-Corona or SARS-CoV-2 virus, or mutants thereof.