Peptides that specifically bind erythrocytes are described. These are provided as peptidic ligands having sequences that specifically bind, or as antibodies or fragments thereof that provide specific binding, to erythrocytes. The peptides may be prepared as molecular fusions with therapeutic agents, tolerizing antigens, or targeting peptides. Immunotolerance may be created by use of the fusions and choice of an antigen on a substance for which tolerance is desired.

Peptides that specifically bind erythrocytes are described. These are provided as peptidic ligands having sequences that specifically bind, or as antibodies or fragments thereof that provide specific binding, to erythrocytes. The peptides may be prepared as molecular fusions with therapeutic agents, tolerizing antigens, or targeting peptides. Immunotolerance may be created by use of the fusions and choice of an antigen on a substance for which tolerance is desired.

Uniform, functional polymer patches can be attached to a fraction of the surface area of living individual cells. These surface-modified cells can cross the blood-brain barrier while remaining viable after attachment of the functional patch. Functional payloads carried by the patch can include a drug. The patch can include one or more polyelectrolyte multilayers (PEMs).

Novel modulators, including antibodies and derivatives thereof, and methods of such modulators to treat hyperproliferative disorders are provided.

The technology provided herein relates to novel anti-parasitic complexes, in particular recombinant fusion proteins suitable as human and/or animal drugs against a parasite of the phylum Apicomplexa, in particular against Plasmodium falciparum (P. falciparum) comprising at least one component A and at least one component B, characterized in that component A has a binding activity for cellular surface structures presented on the surface of a parasite of the phylum Apicomplexa or for parasitic antigens presented on a parasitized host cell, and component B is a compound having anti-parasitic activity.

This disclosure relates to compositions and methods of identifying, isolating, and modulating cells and tissues based on their cellular glycosaminoglycan pattern. In some aspects, provided are anti-GAG motif antibodies or antigen-binding fragments thereof and their use for determining a glycosaminoglycan (GAG) glycotype for a cell. Also provided are methods of isolating cells, identifying cells, detecting a disease or disorder, and/or treating a disease or disorder based on a cellular glycotype.

Hybrid nuclease molecules and methods for treating an immune-related disease or disorder in a mammal, and a pharmaceutical composition for treating an immune-related disease in a mammal.

The invention relates to compositions and methods of constructs comprising a SIRP-α polypeptide, including SIRP-α variants. The constructs may be engineered in a variety of ways to respond to environmental factors, such as pH, hypoxia, and/or the presence of tumor-associated enzymes or tumor-associated antigens. The constructs of the invention may be used to treat various diseases, such as cancer, preferably solid tumor or hematological cancer.

Antibody/signal-generating moiety conjugates are disclosed that include an antibody covalently linked to a signal-generating moiety through a heterobifunctional polyalkyleneglycol linker. The disclosed conjugates show exceptional signal-generation in immunohistochemical and in situ hybridization assays on tissue sections and cytology samples. In one embodiment, enzyme-metallographic detection of nucleic acid sequences with hapten-labeled probes can be accomplished using the disclosed conjugates as a primary antibody without amplification.

The present invention relates to an antibody conjugating peptide including an amino acid having a photoreactive functional group, a physiologically active substance modified with the conjugating peptide, and an antibody conjugate having an antibody linked to the physiologically active substance. When the physiologically active substance modified with the conjugating peptide according to the present invention is linked to the antibody, the conjugation efficiency between the antibody and the physiologically active substance is remarkably improved as compared to that of the conventional art, and thus, the drug may be firmly bound without impairing the specificity of the antibody, thereby making it possible to accelerate commercialization of the antibody conjugate.