Peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for peptides or peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver peptide or peptide-active agent complexes to target regions, tissues, structures, or cells targeted by the peptide.

Peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for peptides or peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver peptide or peptide-active agent complexes to target regions, tissues, structures, or cells targeted by the peptide.

Disclosed herein are fusion proteins for use in treating an inflammatory or immune disorder and methods of use. In some examples, the fusion proteins include an anchor domain and a therapeutic polypeptide. In some examples, the fusion proteins and methods herein can be used to treat inflammatory or immune disorders.

The present invention relates to a pharmaceutical composition including a recombinant stabilized galectin 9 protein for prevention or treatment of a bone disease, particularly relates to a pharmaceutical composition for prevention or treatment of a bone disease including rheumatoid arthritis, which includes a recombinant stabilized galectin 9 protein in which amino acids of link peptides are deleted and amino acids of C-terminal domains (CCRD) are deleted or substituted, as an active ingredient.

Provided herein are targeted effector fusion proteins, complexes thereof, and uses thereof. The targeted effector fusion proteins can include an effector protein that can be linked to a targeting moiety. Monomer targeted effector fusion proteins can form homogeneous or heterogeneous complexes. The targeted effector fusion proteins and complexes thereof can be formulated as pharmaceutical formulations. The targeted effector fusion proteins, complexes thereof, and formulations thereof can be administered to a subject in need thereof.

The present invention relates to a novel method for the affinity purification of proteins of interest in a single step, based on the lectin activity of the CRD (Carbohydrate Recognition Domain) of a galectin or part of said domain retaining the ability to bind β-galactosidase derivative.

Provided are modified therapeutic cells that overexpress an immune checkpoint ligand such as PD-L1, CD155, CD112, FGL1, galectin-9, CD47, B7H3 and B7H4, while expressing one or more Major Histocompatibility Complex (MHC) molecules. Also provided are methods of treatment using the modified therapeutic cells.

The invention concerns the identification of specific polypeptides, fragments variants thereof which can be used as markers for the efficacy of immunotherapy, particular for predicting responsiveness of a patient to immunotherapy.

The present invention pertains to a silkworm-type biotinylated CTLD14 or sRAGE and a method for manufacturing the same. One embodiment of the present invention provides a method for manufacturing biotinylated proteins, wherein the method includes A) a step for inserting a nucleic acid molecule for coding biotin ligase and protein in a coexpressable manner into a silkworm or a living organism that imparts sugar chains that are the same as the sugar chains of the silkworm, B) a step for causing the biotin ligase and protein to be expressed by disposing the silkworm or the living organism that imparts sugar chains that are the same as the sugar chains of the silkworm to conditions with which the nucleic acid molecule will carry out expression, and C) a step for administering biotin to the living organism and obtaining the biotinylated protein.

The present invention relates to compositions and methods for treating cancer. The invention makes use of peptides, nucleic acids encoding such peptides, and cells expressing such peptides, where the peptide comprises a tumor-associated carbohydrate antigen (TACA)-binding domain.