Provided are methods for preventing, treating, suppressing type 1 diabetes, or reversing one or more symptoms of T1D, or delaying the onset of T1D comprising administration to a subject a composition comprising liposomes and insulin intercalated in the bilayer of the liposomes, wherein the bilayer comprises lyso-PS.

Particles offering multiple doses of an active agent to a subject via a single administration of the active agent to the subject are provided. The particles comprise multiple layers, including two dosing layers each having the active agent and an intervening layer that separates the two dosing layers, and provide a first dose of the active agent from the dosing layer covering the intervening layer upon exposure to an aqueous environment after the particles are administered to the subject, and later a second dose of the active agent from the dosing layer covered by the intervening layer after the intervening layer degrades in the body of the subject. Methods for preparing the particles are also provided. Methods for treating or preventing a disease or disorder in a subject in need thereof with two or more doses of an active agent via a single administration to the subject are further provided.

A method of treating a synucleinopathy with a peptide (C)DQPVLPD (SEQ ID NO: 59), (C)DMPVLPD (SEQ ID NO: 60), (C)DSPVLPD (SEQ ID NO: 61), (C)DQPVLPDN (SEQ ID NO: 64), (C)DMPVLPDN (SEQ ID NO: 65), (C)DSPVLPDN (SEQ ID NO: 66), (C)HDRPVTPD (SEQ ID NO: 70), (C)DRPVTPD (SEQ ID NO: 71), (C)DVPVLPD (SEQ ID NO: 72), (C)DTPVYPD (SEQ ID NO: 73), (C)DTPVIPD (SEQ ID NO: 74), (C)HDRPVTPDN (SEQ ID NO: 75), (C)DRPVTPDN (SEQ ID NO: 76), (C)DVPVLPDN (SEQ ID NO: 78), (C)DTPVYPDN (SEQ ID NO: 79), (C)DQPVLPDG (SEQ ID NO: 81), (C)DMPVLPDG (SEQ ID NO: 82), (C)DSPVLPDG (SEQ ID NO: 83), (C)DHPVHPDS (SEQ ID NO: 86), (C)DMPVSPDR (SEQ ID NO: 87), (C)DRPVYPDI (SEQ ID NO: 90), (C)DHPVTPDR (SEQ ID NO: 91), (C)DTPVLPDS (SEQ ID NO: 93), (C)DMPVTPDT (SEQ ID NO: 94), (C)DAPVTPDT (SEQ ID NO: 95), (C)DSPVVPDN (SEQ ID NO: 96), (C)DLPVTPDR (SEQ ID NO: 97), (C)DSPVHPDT (SEQ ID NO: 98), (C)DAPVRPDS (SEQ ID NO: 99), (C)DMPVWPDG (SEQ ID NO: 100), (C)DRPVQPDR (SEQ ID NO: 102), (C)YDRPVQPDR (SEQ ID NO: 103), (C)DMPVDADN (SEQ ID NO: 105), DQPVLPD(C) (SEQ ID NO: 106), and DMPVLPD(C) (SEQ ID NO: 107.

Disclosed herein are CpG conjugated nanoparticles for immunotherapy and photothermal therapy. The composition comprises class B CpG conjugated nanoparticles and/or a class C CpG conjugated nanoparticles where the class B CpG conjugated nanoparticles comprises a nanoparticle core and a class B CpG conjugated thereto and the class C CpG conjugated nanoparticles comprises a nanoparticle core and a class C CpG conjugated thereto.

Aspects of the disclosure relate to methods for producing an antigen-specific immune response to human cytomegalovirus (hCMV) in a subject by administering mRNA vaccines.

Embodiments of the present disclosure include anti-inflammatory compositions and methods of use thereof. The compositions include purified lipids from Francisella, for example, virulent strains of Francisella. Other features and advantages of the invention will be apparent from the detailed description, and from the claims.

Provided are methods and compositions to target delivery of cells to a tissue lesion, thereby treating the lesion. For example, biotinylated antibodies with affinity to a lesion epitope are administered at the lesion. Reparative cells including avidin and biotin are then administered at the lesion. The reparative cells are targeted to the lesion via avidin-biotin bridges to the antibodies, with additional cells recruited to the lesion via cell-to-cell avidin-biotin bridges. In certain examples, antibody-reparative cell complexes are formed by mixing the biotinylated antibodies with the reparative cells including avidin and biotin. The complexes are then administered at the lesion. In other examples, multivalent antibodies are used to target reparative cells to the lesion, such as by binding an epitope at the lesion and an epitope present on the reparative cell. In other examples, the antibodies are chemically linked to a reparative cell or to a nanosome containing a therapeutic agent.

The present disclosure provides particles for delivering a nucleic acid that encodes an immunogenic peptide in an antigen presenting cell. The disclosed particles can function as a vaccine and can be used to treat or prevent a viral or bacterial infection in a subject by expressing in vivo an immunogenic peptide, thereby stimulating the subject's immune system to attack the virus or bacteria that naturally express the immunogenic peptide.

The present document describes compounds, or pharmaceutically acceptable salt thereof, of a core formula (I) where R.sub.1 features an amine group, particularly useful in the formulation of lipid particles including nucleic acid therapeutic agents, or proteins, or both, and for delivery of nucleic acid and protein therapeutics to cells in vivo or ex vivo, including anticancer and vaccine applications.

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In some aspects, the disclosure relates to compositions of peptide mimics useful in the treatment of Neisseria gonorrhoeae (N. gonorrhoeae). In some embodiments, the peptide mimics are multi-antigenic molecules of a conserved gonococcal lipoohgosaccharaide (LOS) epitope. In some aspects, the disclosure relates to methods of making peptide mimics for the treatment of N. gonorrhoeae. In some aspects, the disclosure relates to methods of using peptide mimics for the treatment of N. gonorrhoeae.