The present invention provides compositions comprising nucleic acid molecules, such as mRNA molecules, encapsulated within lipid particles. The compositions are useful, for example, to introduce the mRNA molecules into a human subject where they are translated to produce a polypeptide that functions to ameliorate one or more symptoms of a disease.

Formulated and/or co-formulated liposomes comprising TLR prodrugs and/or TLR Lipid Moieties and methods of making the liposomes are disclosed herein. The TLR prodrug compositions comprise a drug moiety, a lipid moiety, and linkage unit that inhibit Toll-Like Receptor (e.g., TLR1/2, TLR4, and/or TLR7). The TLR prodrugs can be formulated and/or co-formulated into a liposome to provide a method of treating cancer, immunological disorders, and other disease by utilizing a targeted drug delivery vehicle.

Described herein is a nanoparticle system including a multivalent nanoparticle core having a plurality of β-hairpin peptides conjugated thereto. Also included are pharmaceutical compositions and methods of making the nanoparticle system. Further included are immunotherapy methods including administering the nanoparticle system to a subject in need thereof, such as a human cancer patient.

Described herein are compositions and methods for the prevention of pathogens such as conditions in an animal (e.g., a subject). In some cases, a composition or method described herein can comprise a liposome, which may be used to encapsulate one or more STING agonists. In some cases, a liposome of a composition or method described herein may comprise one or more antigens attached to, integrated into, or associated with a liposomal membrane of the liposome.

Liposomes have been used in technologies in biological, pharmaceutical, medical and nutritional applications because they can offer biocompatibility, biodegradability, reduced toxicity, and capacity for size and surface modifications. Traditionally, liposomes are prepared by multiple steps. However, multiple steps of preparation may cause a number of problems including low yield, high polydispersity, and poor morphology. Here, we synthesized liposomes containing magnetic iron oxide nanoparticle using one-pot, single step synthesis under ultra-sonication. We optimized the lipid compositions, sonication power, concentration of iron oxide nanoparticles, and antibody conjugation using Cu-free click chemistry. Furthermore, we incorporated doxorubicin inside magnetic liposomes for combined antibody targeting and magnetic guidance. Fluorescence imaging and quantification confirmed that antibody conjugated magnetic liposome showed high cell specific targeting that was enhanced by magnetic delivery.

The present invention is related to a composition comprising a lipid composition, a tricarboxylic acid and a nucleic acid molecule, wherein the lipid composition comprises a cationic lipid, a neutral lipid and a shielding lipid, wherein a positive charge excess arising from a larger number of positive charges provided by the cationic lipid molecules in the composition compared to the smaller number of negative charges provided by the nucleic acid molecules in the composition is compensated by the charges provided by the tricarboxylic acid; and methods of use of such composition.

The present invention relates to a sonosensitive liposome and a method for preparing same, and the sonosensitive liposome, according to the present invention, increases the delivery efficiency of an encapsulated drug and, by being used in combination with sonication, is expected to exhibit various functions in the field of cancer treatment and drug delivery carriers through an improved drug delivery effect by means of targeting cancer cells.

Disclosed herein are novel synthetic polypeptides and uses thereof in the preparation of liposomes. According to embodiments of the present disclosure, the synthetic polypeptide comprises a membrane lytic motif, a masking motif, and a linker configured to link the membrane lytic motif and the masking motif. The linker is cleavable by a stimulus, such as, light, protease, or phosphatase. Once being coupled to a liposome, the exposure to the stimulus cleaves the linker that results in the separation of the masking motif from the membrane lytic motif, which in turn exerts membrane lytic activity on the liposome that leads to the collapse of the intact structure of the liposome, and releases the agent encapsulated in the liposome to the target site. Also disclosed herein are methods of diagnosing or treating a disease in a subject by use of the present liposomes.

A polypeptide conjugate for use in a method for binding and/or internalization of the polypeptide conjugate to a mammalian cell having a transferrin receptor (TFRC) and/or receptor for advanced glycation end products (RAGE). The polypeptide conjugate may be used in a method for targeting of a drug delivery system or diagnostic delivery system.

The present invention utilizes carrier particles to present antigen peptides and proteins to the immune system in such a way as to include antigen specific tolerance. The carrier particle is designed in order to trigger an immune tolerance effect. The invention is useful for treatment of immune related disorders such as autoimmune disease, transplant rejection and allergic reactions.