Methods are provided for identifying and selecting antibodies that are internalized into cells via the macropinocytosis pathway. Additionally antibodies that are internalized via this pathway are provided as well as immunoconjugates comprising such antibodies.

Phycoerythrin (PE) and peptide:MHCII (p:MHCII) reactive monoclonal antibodies; methods to generate monoclonal antibodies including, for example, peptide:MHC (p:MHC) reactive monoclonal antibodies; compositions including monoclonal antibodies; and uses thereof.

The present invention relates to peptides, proteins, nucleic acids and cells for use in immunotherapeutic methods. In particular, the present invention relates to the immunotherapy of cancer. The present invention furthermore relates to tumor-associated T-cell peptide epitopes, alone or in combination with other tumor-associated peptides that can for example serve as active pharmaceutical ingredients of vaccine compositions that stimulate anti-tumor immune responses, or to stimulate T cells ex vivo and transfer into patients. Peptides bound to molecules of the major histocompatibility complex (MHC), or peptides as such, can also be targets of antibodies, soluble T-cell receptors, and other binding molecules.

The invention provides antibodies that specifically bind to Plasminogen Activator inhibitor type-1 (PAI-1), The invention also provides pharmaceutical compositions, as well as nucleic acids encoding anti-PAI-1 antibodies, recombinant expression vectors and host cells for making such antibodies, or fragments thereof. Methods of using antibodies to modulate PAI-1 activity or detect PAI-1, either in vitro or in vivo, are also provided. The disclosure further provides methods of making antibodies that specifically bind to PAI-1 in the active conformational state.

The instant disclosure provides multispecific molecules that specifically bind to CD96 (e.g., human CD96) and/or TIGIT (e.g., human TIGIT) and isolated antibodies that specifically bind to TIGIT (e.g., human TIGIT). Also provided are pharmaceutical compositions comprising these multispecific molecules and antibodies, nucleic acids encoding these multispecific molecules and antibodies, expression vectors and host cells for making these multispecific molecules and antibodies, and methods of treating a subject using these multispecific molecules and antibodies.

The present disclosure provides antibody sequences found in antibodies that bind to human CD25, in particular an anti CD25-a-674 antibody which do not block the binding of CD25 to IL-2 or IL-2 signalling. The claimed antibody binds to the epitopes: QCVQGYRA and RWTQPQLICTG on CD25 Antibodies and antigen-binding portions thereof including such sequences can be used in pharmaceutical compositions and methods of treatment, in particular for treating cancer.

The present disclosure provides binding proteins specific for human Wilms tumor protein 1 (WT-1) epitopes, as well as host cells that express the binding proteins. Also provided are polynucleotides that encode a binding protein and vectors that comprise a polynucleotide. Related methods and uses of the presently disclosed compositions are provided for treating diseases or disorders associated with WT-1 expression, such as various cancers.

Antibodies and antibody-drug conjugates that selectively bind to a membrane-associated extracellular portion of a cleaved amphiregulin precursor protein; methods of using the antibodies and antibody-drug conjugates to detect and inhibit the growth of neoplastic cells; pharmaceutical compositions containing the antibodies and/or antibody-drug conjugates as the active ingredient(s); kits containing the antibodies and/or antibody-drug conjugates.

A method of treating a synucleinopathy with a peptide (C)DQPVLPD (SEQ ID NO: 59), (C)DMPVLPD (SEQ ID NO: 60), (C)DSPVLPD (SEQ ID NO: 61), (C)DQPVLPDN (SEQ ID NO: 64), (C)DMPVLPDN (SEQ ID NO: 65), (C)DSPVLPDN (SEQ ID NO: 66), (C)HDRPVTPD (SEQ ID NO: 70), (C)DRPVTPD (SEQ ID NO: 71), (C)DVPVLPD (SEQ ID NO: 72), (C)DTPVYPD (SEQ ID NO: 73), (C)DTPVIPD (SEQ ID NO: 74), (C)HDRPVTPDN (SEQ ID NO: 75), (C)DRPVTPDN (SEQ ID NO: 76), (C)DVPVLPDN (SEQ ID NO: 78), (C)DTPVYPDN (SEQ ID NO: 79), (C)DQPVLPDG (SEQ ID NO: 81), (C)DMPVLPDG (SEQ ID NO: 82), (C)DSPVLPDG (SEQ ID NO: 83), (C)DHPVHPDS (SEQ ID NO: 86), (C)DMPVSPDR (SEQ ID NO: 87), (C)DRPVYPDI (SEQ ID NO: 90), (C)DHPVTPDR (SEQ ID NO: 91), (C)DTPVLPDS (SEQ ID NO: 93), (C)DMPVTPDT (SEQ ID NO: 94), (C)DAPVTPDT (SEQ ID NO: 95), (C)DSPVVPDN (SEQ ID NO: 96), (C)DLPVTPDR (SEQ ID NO: 97), (C)DSPVHPDT (SEQ ID NO: 98), (C)DAPVRPDS (SEQ ID NO: 99), (C)DMPVWPDG (SEQ ID NO: 100), (C)DRPVQPDR (SEQ ID NO: 102), (C)YDRPVQPDR (SEQ ID NO: 103), (C)DMPVDADN (SEQ ID NO: 105), DQPVLPD(C) (SEQ ID NO: 106), and DMPVLPD(C) (SEQ ID NO: 107.

Anti-CD73 antigen-binding proteins are provided. Biparatopic anti-CD73 antigen-binding proteins are provided. Methods of inhibiting CD73 activity and methods of treating CD73-mediated diseases and disorders are also provided.