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 the fields of medical microbiology and vaccines. In particular the invention relates to a process wherein the spontaneous release of bacterial outer membrane vesicles (OMV) of Gram-negative bacteria is stimulated by application of a dissolved oxygen tension (DOT) that is higher than a physiological DOT. The thus produced OMVs are for use in vaccines. The invention further relates to OMV obtainable by said process, and to a pharmaceutical composition comprising such OMV. The present invention further relates to the use of OMV of the present invention as a medicament in particular for use in a method for eliciting an immune response.

The present invention relates to a recombinant vaccine against Lawsonia intracellularis, based on a recombinant synthetic chimeric variant of membrane proteins and invasins of said bacteria. In addition, the invention discloses synthetic nucleotide sequences encoding said protein variants, recombinant proteins as such, an expression cassette of said synthetic protein antigens, a transformed cell, and a method for producing said antigens, demonstrating the antigenicity and protective potential thereof against the pathogen Lawsonia intracellularis.

The present invention relates to bacterial ghosts, and more particularly, to a method of preparing bacterial ghosts from gram-positive bacteria by hydrochloric acid treatment. Specifically, according to the present invention, when gram-positive bacteria were cultured after being treated with a minimum inhibitory concentration (MIC) of hydrochloric acid capable of inhibiting colony formation of gram-positive bacteria, bacterial ghosts were effectively formed. Since the formed bacterial ghosts have no intracellular proteins or DNA while preserving cell wall integrity, the risk of side effects such as secondary infection caused by bacterial growth when the bacterial ghosts are administered to humans is low. Therefore, the bacterial ghosts prepared from gram-positive bacteria according to the method of the present invention may be effectively used as a vaccine or a foreign antigen carrier for preventing or treating gram-positive bacterial infection.

A tumor immunotherapy composition based on modified cells, in particular antigen-presenting cells activated by means of attenuated Listeria monocytogenes, a preparation method therefor and an application thereof. Attenuated Listeria monocytogenes carrying a specific antigen plasmid is used to activate antigen-presenting cells, thereby activating WIC antigen presenting properties and a series of cellular immune responses in vivo so as to achieve the purpose of anti-tumor therapy. The described technical solution may specifically activate macrophages and/or dendritic cells, thereby eliciting a series of specific anti-tumor immune responses. The operation process does not require genetic modification of autologous cells, is not limited by tumor type, and operations of the overall process are simple, easy-to-implement and reproducible. The tumor immunotherapy composition of the present disclosure may activate a series of anti-tumor immune responses in vivo, thereby greatly shortening the treatment process and significantly improving targeting ability and safety.

The invention relates to compositions, methods and therapies for the treatment of inflammation caused by infection with Propionibacterium acnes. The compositions include a combination of peptide and anti-TNF. The peptide consists of a specific amino acid sequence or a peptide consisting of an amino acid sequence derived the specific amino acid sequence by deletion, substitution, insertion or addition of one or more amino acids. The administration of the peptide and anti-TNF in therapeutically effective amounts to a patient is effective to suppress, by immune response, inflammation caused by infection with Propionibacterium acnes.

Methods of diagnosing and treating patients afflicted with acne, including diagnosing one as having acne if the individual possesses RT4, RT5, RT7, RT8, RT9, or RT10. Methods for treating acne include administering an effective amount of a drug specifically targeting RT4, RT5, RT7, RT8, RT9, or RT10, such as small molecules, antisense molecules, siRNAs, biologics, antibodies, phages, vaccines, or combination thereof.

Outer membrane vesicles from bacteria of the Burkholderia pseudomallei complex can be 5 used as adjuvants in compositions and methods to potentiate the immune response to immunogens.

The present invention relates to animals and more specifically to insects. In more details the invention relates to an edible composition or insect artificial diet comprising bacteria, fungi or any fragment or spore thereof for use as a vaccine in preventing a microbial disease or infection in an insect. Still, the present invention relates to preventive methods and different uses relating to said compositions or bacteria, fungi or fragments or spores thereof.

Disclosed are methods, systems, components, and compositions for cell-free synthesis of glycosylated proteins. The glycosylated proteins may be utilized in vaccines, including anti-bacterial vaccines. The glycosylated proteins may include a bacterial polysaccharide conjugated to a carrier, which may be utilized to generate an immune response in an immunized host against the polysaccharide conjugated to the carrier. The glycosylated proteins may be synthesized in cell-free glycoprotein synthesis (CFGpS) systems using prokaryote cell lysates that are enriched in components for glycoprotein synthesis such as oligosaccharyltransferases (OSTs) and lipid-linked oligosaccharides (LLOs) including OSTs and LLOs associated with synthesis of bacterial O antigens.