The present disclosure features a protein-polymer conjugate, including a multivalent polymer building block, a stimuli-responsive protein covalently conjugated to the multivalent polymer building block to provide a protein-polymer conjugate, wherein the protein undergoes a modification upon exposure to a predetermined stimulus, and the protein modification triggers a physical and/or chemical response in the protein-polymer conjugate.

The present invention is directed to a biodegradable tough adhesive material comprising an interpenetrating networks (IPN) hydrogel comprising a first polymer network and a second polymer network, wherein the first polymer network comprises a first polymer covalently crosslinked with a biodegradable covalent crosslinker and the second polymer network comprises a second polymer crosslinked with ionic or physical crosslinks; a high density primary amine polymer; and a coupling agent. The present invention also provides methods preparing and using the biodegradable tough adhesive material.

The present invention provides compositions comprising at least one biologically active agent (D) chemically conjugated to a peptide or oligopeptide with overall hydrophilicity (Pep). In some embodiments, the composition comprises D-Pep wherein the biologically active agents are linked to the Pep molecule via an chemical linker, such as amino acid linker. These compositions can be mixed with the other compositions to provide mixtures of nanofiber hydrogel structures that also can be used to locally deliver biologically active agents to tissues of interest. The methods and compositions disclosed herein are useful for sustained drug release when administered in situ to the tissue of interest.

Described herein are FasL-engineered biomaterials, as well as methods of making and using such FasL-engineered biomaterials, such as for immunomodulation, such as for inducing immunosuppression and specific immune tolerance, such as for preventing or reducing the risks of rejection of cellular or tissue grafts and/or the treatment of autoimmune disorders such as Type I diabetes. In specific embodiments, the FasL-engineered biomaterials are biotinylated microgels bound to SA-FasL.

The present invention is directed to reduced and highly oxidized polysaccharides, such as alginates, that are useful for encapsulating therapeutic or diagnostic agents, or lipid based nanoparticles, e.g., liposomes or virosomes, encapsulating therapeutic or diagnostic agents, prior to their delivery into a subject, as well as methods for making and using them.

The present invention relates to the treatment of ocular diseases in a human subject. In particular, the invention relates to an intracameral administration of a sustained release biodegradable intracameral implant.

The present disclosure provides compositions and methods for efficient and effective protein delivery in vitro and in vivo. In some aspects, proteins are reversibly crosslinked to each other and/or modified with functional groups and protected from protease degradation by a polymer-based or silica-based nanoshell.

Aspects of the invention described herein include a hydrogel prodrug and methods of making a hydrogel prodrug for drug delivery. Also contemplated are methods of treating, inhibiting, ameliorating or inhibiting a disease or disorder. Without being limiting, the methods for treatment can be directed to a cancer, HIV, a virus, pain, a bacterial infection, a neurological disorder, hemorrhaging, multiple sclerosis, diabetes, high blood pressure, Alzheimer's, or inhibiting a fungal growth in a subject in need.

N-oxide and monomers, N-oxide polymers and copolymers, methods for making the N-oxide monomers, polymers, and copolymers, compositions and materials that include N-oxide polymers and copolymers, and methods for using the N-oxide monomers, N-oxide polymers, and N-oxide copolymers.

The present invention relates to the treatment of autoimmune and allergic diseases by oromucosal administration of a formulation consisting of an optimized combination of antigen, tolerizing agent and mucoadhesive carrier for each immune disease indication.