The present invention provides Shiga toxin A Subunit derived polypeptides, scaffolds, and cell-targeting molecules comprising amino acid substitutions which equip the molecules with site-specific positions (and often unique amino acid residues in the molecule) for linking other molecules while retaining Shiga toxin function(s), such as, e.g., efficient intracellular routing and/or potent cytotoxicity. The present invention also provides cell-targeting molecules, and/or components thereof, which comprise site-specific positions for linking other molecules, such as, e.g., agents that alters a property of the cell-targeting molecule or a cargo for delivery. Certain molecules comprising a polypeptide of the present invention exhibit reduced immunogenicity and/or are well-tolerated by mammals. The cell-targeting molecules of the present invention, and compositions thereof, have uses, e.g., for the selective delivery of cargos to target-expressing cells and as diagnostic and/or therapeutic molecules for the treatment of a variety of diseases, disorders, and conditions, which include genetic disorders, genetic predispositions, infections, cancers, tumors, growth abnormalities, and/or immune disorders.

The present invention provides Shiga toxin A Subunit derived polypeptides, scaffolds, and cell-targeting molecules comprising amino acid substitutions which equip the molecules with site-specific positions (and often unique amino acid residues in the molecule) for linking other molecules while retaining Shiga toxin function(s), such as, e.g., efficient intracellular routing and/or potent cytotoxicity. The present invention also provides cell-targeting molecules, and/or components thereof, which comprise site-specific positions for linking other molecules, such as, e.g., agents that alters a property of the cell-targeting molecule or a cargo for delivery. Certain molecules comprising a polypeptide of the present invention exhibit reduced immunogenicity and/or are well-tolerated by mammals. The cell-targeting molecules of the present invention, and compositions thereof, have uses, e.g., for the selective delivery of cargos to target-expressing cells and as diagnostic and/or therapeutic molecules for the treatment of a variety of diseases, disorders, and conditions, which include genetic disorders, genetic predispositions, infections, cancers, tumors, growth abnormalities, and/or immune disorders.

The present disclosure provides immunomodulatory fusion proteins-metal hydroxide complexes comprising an immunomodulatory domain adsorbed to a metal hydroxide via ligand exchange. The disclosure also features compositions and methods of using the same, for example, to treat cancer.

The invention relates to protein-based T-cell receptor knockdown, and its use in T-cell therapies.

The present application provides glycosylation engineered higher eukaryotic cells which produce homogeneous forms of sialylated glycans present on a recombinant glycoprotein. In particular, the glycosylation engineered higher eukaryotic cells produce homogeneous forms of small N-glycan structures which carry terminal sialic acid residues. In addition, the invention provides glycan-conjugates based on specific coupling with sialic acid residues present on the recombinant glycoproteins.

The invention relates to protein-based T-cell receptor knockdown, and its use in T-cell therapies.

This invention provides biosensors, cell models, and methods of their use for monitoring chloride ion, where the biosensors can include targeting domains, sensing domains and reporting domains. Biosensors can be introduced into cells reprogrammed to represent experimental or pathologic cells of interest, including as detectors of chloride ions, as TempoChloro accomplishes.

The present invention relates to an engineered immune cell which comprises: (i) a target binding polypeptide comprising a target-binding domain and a first protein interaction domain, and (ii) a localising polypeptide comprising a second protein interaction domain, which binds to the first protein binding domain, and an intracellular retention signal. When the target binding polypeptide binds its target protein and also the localising polypeptide, expression of the target protein at the cell surface is reduced or eliminated because the target protein is retained in an intracellular compartment.

The present invention provides Shiga toxin A Subunit derived polypeptides, scaffolds, and cell-targeting molecules comprising amino acid substitutions which equip the molecules with site-specific positions (and often unique amino acid residues in the molecule) for linking other molecules while retaining Shiga toxin function(s), such as, e.g., efficient intracellular routing and/or potent cytotoxicity. The present invention also provides cell-targeting molecules, and/or components thereof, which comprise site-specific positions for linking other molecules, such as, e.g., agents that alters a property of the cell-targeting molecule or a cargo for delivery. Certain molecules comprising a polypeptide of the present invention exhibit reduced immunogenicity and/or are well-tolerated by mammals. The cell-targeting molecules of the present invention, and compositions thereof, have uses, e.g., for the selective delivery of cargos to target-expressing cells and as diagnostic and/or therapeutic molecules for the treatment of a variety of diseases, disorders, and conditions, which include genetic disorders, genetic predispositions, infections, cancers, tumors, growth abnormalities, and/or immune disorders.

Provided are recombinant polypeptides that comprise a protein of interest, a protein localization tag, and a protease cleavage site disposed between the protein of interest and the protein localization tag. In certain embodiments, the recombinant polypeptides further comprise a protease, where the protease cleavage site is a cleavage site for the protease. Also provided are nucleic acids that encode the recombinant polypeptides, cells that comprise such nucleic acids, and compositions (e.g., pharmaceutical compositions) that comprise such cells. Methods of regulating cellular localization of a protein of interest, and methods of administering a regulatable cell-based therapy to an individual in need thereof, are also provided.