The invention provide herein provides for a targeted drug delivery vehicle compositions, methods of manufacture, and methods of treatment for therapeutic applications.

Described herein is a method of inducing vascular inflammation using modified paramagnetic nanoparticles with improved therapeutic loading efficiency and enhanced circulation properties. The method comprises loading lipophilic agent into the fatty acid coatings of a paramagnetic nanoparticle (PMNP). In certain embodiment, the lipophilic agent is lipopolysaccharides (LPS). Described herein is a method of inducing vascular leakiness. In certain embodiment, the method induces a significant enhancement of vascular leakiness in a human body. In certain embodiments, the vascular leakiness allows for enhanced local delivery of nanoparticle and non-nanoparticle based therapeutics, imaging agents and theranostics. Also described herein is a method of using the PMNP for the treatment of diseases. In certain embodiments, the method of treatment is a combination therapy. Described herein are imaging of therapeutic delivery of PMNP and diagnostic methods using the PMNP. Also described herein is a diagnostic kit that comprises the PMNP.

The subject invention pertains to a modified MC1R peptide ligand comprising a peptide that is a melanocortin 1 receptor (MC1R) ligand and a functionality or linker, such as a click functionality, for conjugation to a surface or agent. The modified MC1R peptide ligand can be coupled, e.g., via a click reaction with a complementary click functionality attached, to a moiety to form an MC1R-targeted agent. Drugs, contrast agents, polymers, particles, micelles, surfaces of larger structures, or other moieties can be targeted to the MC1R. The subject invention also pertains to a MC1R peptide ligand-micelle complex comprising a peptide that is a melanocortin 1 receptor ligand connected via a click reaction product to a micelle. The micelle is stable in vivo and can target melanoma tumor cells by association of the peptide ligand with the MC1R or the tumor and selectively provide a detectable and/or therapeutic agent (such as an imageable contrast agent and/or anti-cancer agent) selectively to the tumor cell.

The invention relates to a pharmaceutical composition soluble in an aqueous solution, which is characterised in that it comprises sialoglycosphingolipids; polypeptides selected from the group comprising antibodies, fragments and variants of same; and at least one therapeutically active substance, forming a ternary micellar complex of sialoglycosphingolipid-therapeutically active substance-polypeptide in which the polypeptides are non-covalently associated with the micelles formed by the sialoglycosphingolipid and the therapeutically active substance.

Methods and compositions for serum-stabilizing micelles for drug delivery or imaging agent delivery are provided, as well as methods and compositions to enhance micelle-mediated drug delivery. This invention provides a process for synthesizing a lipid micelle comprising one or more lipid-oligonucleotide conjugate molecules, the process comprising contacting an amount of lipid molecules with an amount of lipid-oligonucleotide conjugate molecules sufficient to create a lipid micelle comprising lipid-oligonucleotide conjugate molecules.

The present invention provides compositions and methods for the delivery of antivirals to a cell or subject.

Disclosed are a pharmaceutical composition for anionic drug delivery, and a preparation method therefor, the pharmaceutical composition for anionic drug delivery containing: an anionic drug as an active ingredient; a cationic compound; an amphiphilic block copolymer; and a polylactate, wherein the anionic drug formed a complex with the cationic lipid, and the complex is encapsulated within a micelle structure formed by the amphiphilic block copolymer and the polylactate.

The present invention provides methods to treating inflammation related disease and disorders such as an autoimmune disease and autoimmune related uveitis by administering compositions and formulations comprising MetAP-2 inhibitors as disclosed herein. The composition comprises a formulation of a fumagillol derivative that retains anti-inflammation activity and is associated with a block copolymer comprising a hydrophilic polymer moiety and a hydrophobic polymer moiety.

Provided herein are multi-nanoparticle formulations. Also provided herein are methods for enhancing circulation time and/or cell-targeting efficacy of an effector nanoparticle by administering an endocytosis inhibitory nanoparticle and an effector nanoparticle.

The present invention relates to the field of polymer chemistry and more particularly to multiblock copolymers and micelles comprising the same. Compositions herein are useful for drug-delivery applications.