The present invention provides new compositions and methods for preventing and treating pathogen infection. In particular, the present invention provides compounds having an anchoring domain that anchors the compound to the surface of a target cell, and a therapeutic domain that can act extracellularly to prevent infection of a target cell by a pathogen, such as a virus. The present invention also comprises therapeutic compositions having sialidase activity, including protein-based compounds having sialidase catalytic domains. Compounds of the invention can be used for treating or preventing pathogen infection, and for treating and reducing allergic and inflammatory responses. The invention also provides compositions and methods for enhancing transduction of target cells by recombinant viruses. Such compositions and methods can be used in gene therapy.

The present invention relates to polypeptides which are covalently bound to molecular scaffolds such that two or more peptide loops are subtended between attachment points to the scaffold. In particular, the invention describes peptides which are high affinity binders of CD137. The invention also includes drug conjugates comprising said peptides, conjugated to one or more effector and/or functional groups, to pharmaceutical compositions comprising said peptide ligands and drug conjugates and to the use of said peptide ligands and drug conjugates in preventing, suppressing or treating a disease or disorder mediated by CD137.

The present invention relates to novel monomeric fusion proteins derived from human GAG binding proteins such as chemokines with increased glycosaminoglycan (GAG) binding affinity and knocked-out or reduced GPCR activity compared to wild type GAG binding proteins, which are highly selectively competitive and are of increased bioavailability, and to their use for prevention or treatment of pathological cell movement as in metastasis.

The present invention relates to a method of inducing the differentiation of human pluripotent stem cell-derived embryoid bodies into ectoderm by CXCR2 stimulation, and more particularly, to a method of promoting the differentiation of human pluripotent stem cell-derived embryoid bodies into ectoderm by stimulating and activating the surface receptor CXCR2 of the embryoid bodies with the CXCR2-specific ligand GRO-. The method of inducing the differentiation of human pluripotent stem cell-derived embryoid bodies into ectoderm by CXCR2 stimulation according to the present invention can increase the efficiency and utility of stem cells as a cell therapeutic agent, because it promotes the differentiation of stem cells into a specific germ layer serving as the origin of target cells, which is the first important step for inducing the differentiation of stem cells into specific cells.

A solid substrate for the extraction, stabilization, and storage of proteins is provided. The substrate includes: a polysaccharide, such as melezitose under a substantially dry state. The substrate is configured to extract proteins from a sample and stabilize the extracted proteins in a dry format under ambient conditions for a prolonged period of time. Methods for collecting and recovering the proteins stored in the dry solid substrate are also described.