The invention provides a process for preparing a conjugate of a S. aureus type 8 capsular polysaccharide and a carrier molecule, comprising the steps of: (a) depolymerising the capsular polysaccharide, to give a polysaccharide fragment; (b) oxidising the fragment in order to introduce an aldehyde group into at least one saccharide residue in the fragment, to give an oxidised saccharide residue; and (c) coupling the oxidised saccharide residue to a carrier molecule via the aldehyde group, thereby giving the conjugate. The coupling in step (c) may be direct, or may be via a linker molecule. The invention also provides a conjugate obtained or obtainable by this process.

Described herein are compounds for use in vaccine compositions which contain natural or synthetic carbohydrate antigens. Such vaccines may be highly immunologically active due to the conjugation with an immune-stimulating protein or with a monophosphorylated lipid A derivative, and may be self-adjuvanting due to the presence of a monophosphorylated lipid A derivative. Treatments for cancer and fungal and bacterial infections are described herein.

Described herein are compounds for use in vaccine compositions which contain natural or synthetic carbohydrate antigens. Such vaccines may be highly immunologically active due to the conjugation with an immune-stimulating protein or with a monophosphorylated lipid A derivative, and may be self-adjuvanting due to the presence of a monophosphorylated lipid A derivative. Treatments for cancer and fungal and bacterial infections are described herein.

The present invention provides a fusion protein comprising an HPV cancer-causing protein segment, a coding sequence thereof and an application thereof in preparing drugs for detecting or treating HPV-related diseases. The fusion protein can simultaneously induce the humoral immunity and the cellular immunity for a high-risk HPV cancer protein and has anti-cancer activity in vivo.

The present invention provides a fusion protein comprising an HPV cancer-causing protein segment, a coding sequence thereof and an application thereof in preparing drugs for detecting or treating HPV-related diseases. The fusion protein can simultaneously induce the humoral immunity and the cellular immunity for a high-risk HPV cancer protein and has anti-cancer activity in vivo.

The present disclosure relates to fusion proteins that comprise one or more modified alpha virus surface glycoproteins and one or more tumor specific antigens. Also disclosed are fusion proteins that comprise one or more modified alpha virus surface glycoproteins and one or more viral specific antigens. Also disclosed are fusion proteins that comprise one or more modified alpha virus surface glycoproteins. It also relates to methods to activate the immune system in cancer patients to infiltrate and kill tumor cells or cells infected with a latent virus. The present disclosure provides a platform technology that elicits a faster, broader and stronger immune response using the fusion proteins.

The present disclosure relates to fusion proteins that comprise one or more modified alpha virus surface glycoproteins and one or more tumor specific antigens. Also disclosed are fusion proteins that comprise one or more modified alpha virus surface glycoproteins and one or more viral specific antigens. Also disclosed are fusion proteins that comprise one or more modified alpha virus surface glycoproteins. It also relates to methods to activate the immune system in cancer patients to infiltrate and kill tumor cells or cells infected with a latent virus. The present disclosure provides a platform technology that elicits a faster, broader and stronger immune response using the fusion proteins.

The present disclosure relates to modified extracellular vesicles, e.g., exosomes, comprising a targeting moiety, wherein the targeting moiety can specifically bind to markers expressed on distinct immune cells (e.g., dendritic cells). Also provided herein are methods for using the exosomes to treat and/or prevent a range of medical disorders.

In vitro method for detection of infections caused by Pseudomonas aeruginosa. The present invention relates to compounds of general Formula (I) and to their use as haptens. Moreover, the present invention also refers to conjugates comprising the haptens of the invention and to their use for obtaining antibodies. Finally, the invention also relates to an in vitro method for the detection of infections caused by Pseudomonas aeruginosa by means of the identification and/or quantification of the main signaling molecules from the pqs quorum sensing system.

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In vitro method for detection of infections caused by Pseudomonas aeruginosa. The present invention relates to compounds of general Formula (I) and to their use as haptens. Moreover, the present invention also refers to conjugates comprising the haptens of the invention and to their use for obtaining antibodies. Finally, the invention also relates to an in vitro method for the detection of infections caused by Pseudomonas aeruginosa by means of the identification and/or quantification of the main signaling molecules from the pqs quorum sensing system.

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