The invention provides a substantially antigen-free composition for induction of innate immune response in a bird or a mammal, the composition comprising a saponin, a sterol, a quaternary amine, and a polyacrylic polymer to the mammal or bird. Methods of using the composition are also provided.

This document provides methods and materials relating to isolated polypeptides, polypeptide preparations, vaccine preparations (e.g., anti-cancer vaccine preparations), and methods for vaccinating mammals. For example, polypeptides (e.g., CMV, MUC1, HER2, Mesothelin (MESO), TRAG-3, or CALR polypeptides) having the ability to be processed into different polypeptides such that the processed polypeptides as a group are capable of being presented by different MHC molecules present in a particular mammalian population are provided.

Described is the preparation of novel fentanyl haptens of Formula (1) through (6) and their use in the preparation of effective fentanyl vaccines.

The invention covers the use of certain classes of lipids including cationic lipids in ex-vivo dendritic cell therapies. The cationic lipids enhance antigen uptake, processing and presentation of the processed antigens by dendritic cells to CD8+ and CD4+ T-cells via the MHC classes I and II presentation pathways respectively. Antigen uptake via cationic lipid by dendritic cells result in significant lowering of the population of the immune suppressive regulatory T cells in the tumors and a significant increase of the tumor targeting cytotoxic T-cells. Loss of regulatory T cells and increase of tumor specific cytotoxic cells are conducive to effective elimination of the tumors.

Monomers and copolymers are provided that both target antigen presenting cells (APCs) and activate toll-like receptor (TLR) on the APCs. In some embodiments, compositions and methods involve a polymer that targets the mannose receptor on APCs, in addition to activating a TLR. These can then be conjugated to protein antigens to efficiently target antigens to DCs and simultaneously induce the up-regulation of co-stimulatory molecules that are essential for effective T cell activation. This copolymer is a more efficient activator of DCs, as measured by the surface expression of co-stimulatory molecules and the release of proinflammatory cytokines, than the monomeric form the TLR agonist used in the polymer formulation. Aspects of the disclosure relate to novel compounds, methods, and compositions for treating diseases using the compounds, copolymers, and compositions described herein.

The compound N-(4-{[4-amino-2-butyl-1H-imidazo[4,5-c]quinolin-1-yl]oxy}butyl)octadecanamide is a useful drug compound for enhancing immune response and can be used, for example, as a retrovirus vaccine adjuvant.

Disclosed is a stable immunogenic composition capable of eliciting a robust and durable immune response, comprising at least one antigen consisting of a filovirus glycoprotein and at least one nano-emulsion adjuvant which are co-lyophilized and can be reconstituted immediately prior to use. Also disclosed is a vaccine composition comprising at least two antigens, wherein each antigen is specific to a different genus of filovirus and which also comprises at least one nano-emulsion adjuvant.

The present invention provides an immunomodulatory composition useful for treating or preventing joint damage comprising at least a set of peptides possessing an amino acid sequence having at least 80%, 85% and 90% sequence identity with the peptides corresponding to SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3 and SEQ ID NO:4 and a method for the treatment or prevention of joint damage comprising the steps of a) extract monocytes from a patient with a rheumatological disease; b) culture the monocytes extracted in the previous step in AIM-V medium with GM-CSF and IL-4; c) wash the monocytes and add dexamethasone; d) load the tDCs with the immunomodulatory composition comprising autoantigenic peptides; e) add MPLA; and f) incorporate the tDCs loaded with autoantigenic peptides into the patient. The present invention includes methods for the treatment or prevention of rheumatological disease comprising a wide range of tDCs performed by different protocols.

The present application is related to a novel coronavirus S protein double-region subunit nano-vaccine based on a bacterial complex. In the present invention, a receptor binding domain (RBD) and a fusion peptide (FP) of a virus are used together as double antigens, and are connected to a bacterial complex (such as PF_Ferritin or Lumazine Synthase (LS)) to form a fusion protein, so as to achieve antigen multimerization; and then expression is performed by using a eukaryotic cell expression system, and a 24-mer nano-antigen or a 60-mer nano-antigen can be formed by means of self-assembly action. The solution can overcome the defect of insufficient immunogenicity of an RBD monomer. The obtained vaccine can significantly increase the level of a neutralizing antibody against a virus in a host, and the resulting antibody has the capability of strongly blocking a virus from invading a target cell.

The present invention relates to compositions and methods for manufacturing an adjuvant comprising an aminoalkyl glucosaminide phosphate compound or glucopyranosyl lipid adjuvant using a microfluidic device and to related aspects.