A method of treating a synucleinopathy with a peptide

TABLE-US-00001 (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)DSPWPDN (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.

Embodiments of the invention are directed to fibrillar adjuvants. Epitopes assembled into nanofibers by a short synthetic fibrillization domain elicited high antibody titers in the absence of any adjuvant.

Methods for inducing anti-phosphorylated Tau antibodies without inducing a severe adverse event in humans are described. The methods include administering to the subject an effective amount of liposomes including a toll-like receptor 4 agonist and a Tau phosphopeptide presented on the surface of the liposome.

The present invention provides for novel immunological and vaccine formulations comprising a newly applied non-crosslinked polyacrylic acid polymer adjuvant. The adjuvants may be combined with a wide variety of immunogens to produce vaccines that are safe and effective when administered to a wide range of target animals. The immunogens may include, but are not limited to: inactivated pathogens, attenuated pathogens, subunits, recombinant expression vectors, plasmids or combinations thereof. The animals may include, but are not limited to: humans, murine, canines, felines, equines, porcines, ovines, caprines and bovines.

The invention pertains to a method for treating a cancer which expresses PRAME using T cells which recognize specific peptide epitopes of PRAME, to a method for producing T cells that target cancer cells expressing PRAME, the peptide epitopes of PRAME themselves and to compositions and methods of treatment using these peptides.

The disclosure provides nanoemulsion compositions and methods of making and using thereof to deliver a bioactive agent such as a nucleic acid to a subject. The nanoemulsion composition comprises a hydrophobic core based on inorganic nanoparticles in a lipid nanoparticle that allows imaging as well as delivering nucleic acids. Methods of using these particles for treatment and vaccination are also provided.

The present invention discloses antibodies to canine PD-1 that have specific sequences and a high binding affinity for canine PD-1. The invention also discloses the use of the antibodies of the present invention in the treatment of cancer in dogs.

Disclosed herein is a method for treating a subject having, or at risk of having, a cancer, comprising administering to the subject a therapeutically effective amount of a tumor membrane vesicle (TMV) and a metformin. In some embodiments, the TMV comprises a B7-1 and/or IL-12 molecule anchored to a lipid membrane (e.g., by a GPI anchor). In some embodiments, the methods can further comprise administering an immune checkpoint inhibitor. The methods are useful for reducing tumor size and metastasis, and in improving anti-tumor immune responses.

A tumor vaccine, a preparation method therefor, and use of the tumor vaccine thereof. A pharmaceutical combination with a first membrane component having a membrane derived from the inner membrane of bacteria, the pharmaceutical combination further includes components derived from other organisms than the bacteria. A method for enhancing an uptake of a target antigen by an immune cell, activating an immune cell, enhancing an innate immunity and/or a specific immune response and/or preventing and/or treating a tumor. A tumor vaccine for preventing postoperative recurrence of cancer.

The disclosure provides peptide compositions and immunotherapy compositions comprising an amyloid-beta (Aβ) peptide and a fau. peptide. The disclosure also provides methods of treating or effecting prophylaxis of Alzheimer's disease or oilier diseases with beta-amyloid deposition in a subject, including methods of clearing deposits, inhibiting or reducing aggregation of Aβ and/or tan, blocking the uptake by neurons, clearing amyloid, and inhibiting propagation of tau seeds in a subject having or at risk of developing Alzheimer's disease or other diseases containing tau and/or amyloid-beta accumulations. The methods include administering to such patients the compositions comprising an amyloid-beta (Aβ) peptide and a tau peptide.