An object of the present invention is to provide a method for enhancing a sensitivity of a current endotoxin measuring reagent employing a recombinant protein to the endotoxin of Helicobacter pylori. The present invention provides a method for enhancing the sensitivity of an endotoxin measuring reagent to the endotoxin of Helicobacter pylori, the endotoxin measuring reagent containing a recombinant protein of horseshoe crab factor C, the method including increasing a content of the recombinant protein of factor C at the time of endotoxin measurement to an amount that is sufficient for enhancing the sensitivity.

This disclosure relates to antigenic EBV polypeptides and their use in eliciting antibodies against EBV. Also disclosed are antigenic polypeptides comprising an EBV polypeptide and a ferritin protein.

This disclosure relates to antigenic OspA polypeptides and their use in eliciting antibodies against OspA. Also disclosed are antigenic polypeptides comprising an OspA polypeptide and a ferritin protein.

The present invention provides optimized nucleic acid molecules, methods for optimization of nucleic acid molecules and uses of optimized nucleic acid molecules. A modular design principle is provided that is suitable to generate a nucleic acid, particularly mRNA, which is tailored for a respective application. The nucleic acid molecules of the present invention can be obtained by the versatile combination of multiple modules on nucleic acid level. Such nucleic acid, e.g. mRNA, can be tailored by combining one or more modules, comprising (i) a nucleic acid moiety encoding a polypeptide of interest (e.g. a protein potentially producing a therapeutic outcome) and (ii) at least one further coding or non-coding nucleic acid moiety, e.g. selected among nucleic acid moieties encoding a polypeptide element, such as a secretory signal peptide (SSP), a multimerization element (dimerization, trimerization, tetramerization and oligomerization), a virus like particle (VLP) forming element, a transmembrane element, a dendritic cell targeting element, an immunological adjuvant element, an element promoting antigen presentation; a 2A peptide; a peptide linker element, elements that extend protein half-life, and/or any other polypeptide or protein. Non-coding nucleic acid moieties may be selected e.g. from the group comprising 3-UTR, 5-UTR, IRES element, miRNA moiety, histone stem loop, poly(C) sequence, polyadenylation signal, polyA-sequence. The optimized nucleic acid molecule can further be characterized by the presence of at least one modified nucleoside. The versatility of the present invention allows for rational design of a large variety of different nucleic acid molecules with desired properties.

The present invention provides optimized nucleic acid molecules, methods for optimization of nucleic acid molecules and uses of optimized nucleic acid molecules. A modular design principle is provided that is suitable to generate a nucleic acid, particularly mRNA, which is tailored for a respective application. The nucleic acid molecules of the present invention can be obtained by the versatile combination of multiple modules on nucleic acid level. Such nucleic acid, e.g. mRNA, can be tailored by combining one or more modules, comprising (i) a nucleic acid moiety encoding a polypeptide of interest (e.g. a protein potentially producing a therapeutic outcome) and (ii) at least one further coding or non-coding nucleic acid moiety, e.g. selected among nucleic acid moieties encoding a polypeptide element, such as a secretory signal peptide (SSP), a multimerization element (dimerization, trimerization, tetramerization and oligomerization), a virus like particle (VLP) forming element, a transmembrane element, a dendritic cell targeting element, an immunological adjuvant element, an element promoting antigen presentation; a 2A peptide; a peptide linker element, elements that extend protein half-life, and/or any other polypeptide or protein. Non-coding nucleic acid moieties may be selected e.g. from the group comprising 3-UTR, 5-UTR, IRES element, miRNA moiety, histone stem loop, poly(C) sequence, polyadenylation signal, polyA-sequence. The optimized nucleic acid molecule can further be characterized by the presence of at least one modified nucleoside. The versatility of the present invention allows for rational design of a large variety of different nucleic acid molecules with desired properties.

The present invention relates to an oral universal influenza vaccine comprising recombinant lactic acid bacteria which express proteins including but not limited to ferritin protein plus highly-conserved stem fragment of hemagglutinin (HA) proteins expressed in all known influenza viruses. The present invention also relates to the recombinant protein comprising the highly-conserved stem fragment of HA and ferritin proteins.

The present invention relates to an oral universal influenza vaccine comprising recombinant lactic acid bacteria which express proteins including but not limited to ferritin protein plus highly-conserved stem fragment of hemagglutinin (HA) proteins expressed in all known influenza viruses. The present invention also relates to the recombinant protein comprising the highly-conserved stem fragment of HA and ferritin proteins.

The present invention relates to immunogenic compositions and their use in the prevention or treatment of diseases or disorders caused by or associated with Helicobacter pylori, in particular H. pylori infection and gastroduodenal disorders caused by H. pylori. The present invention further relates to methods of detecting H. pylori infection in a subject.

The present invention relates to immunogenic compositions and their use in the prevention or treatment of diseases or disorders caused by or associated with Helicobacter pylori, in particular H. pylori infection and gastroduodenal disorders caused by H. pylori. The present invention further relates to methods of detecting H. pylori infection in a subject.

The present disclosure provides immunogenic compositions against Campylobacter and methods for using the immunogenic composition to generate an immune response against Campylobacter and/or reduce intestinal colonization by Campylobacter.