Disclosed are methods and compositions for targeting antibodies to amyloid deposits. For example, amyloid-reactive peptides that bind amyloid deposits are administered to a subject. Antibodies to the amyloid-reactive peptides are then administered to the subject. Upon administration of the antibodies, the amyloid-reactive peptides bind the antibodies and thus pre-target the antibodies to the amyloid deposits. In other examples, an amyloid-reactive fusion peptide contains an epitope of a known antibody. When the fusion peptide is administered to a subject, the fusion peptide binds amyloids in the subject. Administration to the subject of the known antibody that binds the epitope of the fusion peptide then targets the antibody to the amyloid deposit to which the fusion peptide is bound.

Disclosed are compositions and methods related to multivalent compositions targeted to cells and tissues. The disclosed targeting is useful for treatment of cancer and other diseases and disorders.

The invention relates to bifunctional stapled or stitched peptides comprising a targeting domain, a linker moiety, and an effector domain, that can be used to tether, or to bring into close proximity, at least two cellular entities (e.g., proteins). Certain aspects relate to bifunctional stapled or stitched peptides that bind to an effector biomolecule through the effector domain and bind to a target biomolecule through the targeting domain. Polypeptides and/or polypeptide complexes that are tethered by the bifunctional stapled or stitched peptides of the invention, where the effector polypeptide bound to the effector domain of the bifunctional stapled or stitched peptide modifies or alters the target polypeptide bound to the targeting domain of the bifunctional peptide. Uses of the inventive bifunctional stapled or stitched peptides including methods for treatment of disease (e.g., cancer, inflammatory diseases) are also provided.

The invention relates to bifunctional stapled or stitched peptides comprising a targeting domain, a linker moiety, and an effector domain, that can be used to tether, or to bring into close proximity, at least two cellular entities (e.g., proteins). Certain aspects relate to bifunctional stapled or stitched peptides that bind to an effector biomolecule through the effector domain and bind to a target biomolecule through the targeting domain. Polypeptides and/or polypeptide complexes that are tethered by the bifunctional stapled or stitched peptides of the invention, where the effector polypeptide bound to the effector domain of the bifunctional stapled or stitched peptide modifies or alters the target polypeptide bound to the targeting domain of the bifunctional peptide. Uses of the inventive bifunctional stapled or stitched peptides including methods for treatment of disease (e.g., cancer, inflammatory diseases) are also provided.

The present invention provides methods and systems for targeted delivery of a compound to a target cell that over-expresses two different proteinases. Specifically, two different modified protective antigen proteins, each comprising a cleavage site recognized by a distinct proteinase in place of the native proteinase cleavage site recognized by furin, are administered in combination with a compound that contains a protective antigen binding site. Upon cleavage by the two proteinases the two modified protective antigen proteins form a hetero-oligomer, allowing the compound to bind to the hetero-oligomer and subsequently to be translocated into the target cell.

Chimeric Fc fusion polypeptides are provided, optionally including biologically active polypeptides for therapeutic use.

Chimeric Fc fusion polypeptides are provided, optionally including biologically active polypeptides for therapeutic use.

Bi-specific fusion proteins with therapeutic uses are provided, as well as pharmaceutical compositions comprising such fusion proteins, and methods for using such fusion proteins to repair or regenerate damaged or diseased tissue. The bi-specific fusion proteins generally comprise: (a) a targeting polypeptide domain that binds to a target molecule; and (b) an activator domain that detectably modulates tissue regeneration.

Devices, bandages, kits and methods are described that can control or regulate the mechanical environment of a wound to ameliorate scar and/or keloid formation. The mechanical environment of a wound includes stress, strain, and any combination of stress and strain. The control of a wound's mechanical environment can be active, passive, dynamic, or static. The devices are configured to be removably secured to a skin surface in proximity to the wound site and shield the wound from endogenous and/or exogenous stress.

Antibodies and meditopes that bind to the antibodies are provided, as well as complexes, compositions and combinations containing the meditopes and antibodies, and methods of producing, using, testing, and screening the same, including therapeutic and diagnostic methods and uses.