Provided are compositions, methods and uses relating to one or more virus or virus-like particle(s), each of which comprises at least one epitope(s) of a pathogen causing the disease or one or more of the cholesterol checkpoint protein(s).

Embodiments of the present invention are generally related to a method of enhancing the transfection efficiency and immunological/pharmacological/therapeutic responses of concurrent gene-based vaccinations or therapies delivered by a wide range of non-viral particles, viral vectors or viral-biomaterials hybrid particles. In particular, embodiments of the present invention are directed to a method of electroporation which enhances the transfection efficiency of RNA replicon loaded lipid-based nanoparticles in-vivo as well as greatly improves immunogen-specific immune responses of such RNA-based vaccinations. This invention also applies to other gene-based vaccination and therapy using non-viral particles, viral based vectors or viral-biomaterials hybrid particles, in conjunction with the said electroporation regimen.

The present invention generally relates to a dynamic nanoparticle used for vaccination. Specifically, the claimed product comprises of an adaptive nanoparticle wherein both the outer surface and the inner core are customizable for targeted application.

Described herein are peptides and antibodies for prevention and/or therapeutic treatment of mammals, including humans, against systemic lupus erythematosus, as well as diagnosing the presence or absence of antibodies related to increased or decreased risk of developing SLE and/or to disease grading, staging, and/or prognosis.

The present invention provides compositions, systems, kits, and methods for expressing at least one therapeutic protein or biologically active nucleic acid molecule in a subject. In certain embodiments, the subject is first administered a composition comprising polycationic structures that is free, or essentially free, of nucleic acid molecules, and then (e.g., 1-30 minutes later) is administered a composition comprising a plurality of one or more non-viral expression vectors that encode at least one therapeutic protein (e.g., at least one anti-SARS-CoV-2 antibody, multiple different antibodies, an ACE2 protein, or human growth hormone) or a biologically active nucleic acid molecule.

The invention is directed to a process for preparing a library of saposin lipoprotein particles, wherein the particles comprise membrane components from a cell or an organelle membrane and a lipid binding polypeptide that is a saposin-like protein belonging to the SAPLIP family of lipid interacting proteins or a derivative form thereof, wherein the process comprises the steps of a) providing a mixture of crude membrane vesicles obtained from a cell or an organelle membrane; b) contacting the mixture of step a) with the lipid binding polypeptide in a liquid environment; and c) allowing for self-assembly of the particles. The invention also provides a process for preparing a purified saposin lipoprotein particle comprising the steps of preparing a library according to the process described above and the additional step of f) purifying the saposin lipoprotein particle from the library. In addition, the invention provides a library of saposin lipoprotein particles and saposin lipoprotein particles obtainable according to the processes of the invention. These can be used in medicine, in particular in preventing, treating or lessening the severity of a disease or for use in a diagnostic method, a cosmetic treatment or for use as vaccination formulation or as a tool for drug development, drug screening, drug discovery, antibody development, development of therapeutic biologies, for membrane or membrane protein purification, for membrane protein expression, for membrane and/or membrane protein research, in particular lipidomics and proteomics, preferably for the isolation, identification and/or study of membranes and/or membrane proteins or creation of a lipidome or proteome database.

Compositions, methods of making, and methods of using, xenoantigen-displaying anti-cancer vaccines are described.

The invention relates to a virus like particle (VLP) based vaccine. The virus-like particle constitutes a non-naturally occurring, ordered and repetitive antigen array display scaffold which can obtain a strong and long-lasting immune response in a subject. The VLP based vaccine may be used for the prophylaxis and/or treatment of a disease including, but is not limited to, cancer, cardiovascular, infectious, asthma, and/or allergy diseases/disorders.

The present invention relates to certain polyphenol(s) having adjuvant property that can be used for the vaccine preparation. Also, the current invention provides adjuvant system comprising said polyphenol(s) and delivery system such as an immunostimulating reconstituted influenza virosomes (IRIVs). The present invention illustrates the said polyphenol(s) or an adjuvant system comprising of such polyphenol(s) and IRIVs can provide better level of immune response against antigen of interest than conventional vaccine systems. The preferred polyphenol according to the present invention can be beta-sitosterol. Beta-sitosterol can be optionally combined with the known adjuvant(s) to enhance immune response.

The invention relates to multiple epitope constructs, immunogenic and vaccine compositions comprising recombinant molecules presenting inserted multiple and different epitopes from a variety of antigens. The antigenic determinants being associated with different pathways leading to atherosclerosis. In particular, the invention relates to such compositions for eliciting an immune response against antigens and pathogens involved in the development of atherosclerosis the invention includes inter alia methods of treating and/or preventing the disease and recombinant protein products