The present invention relates to a novel use of a bacterial secretome in the field of the treatment of skin lesions and more particularly of wound healing. The invention also relates to cosmetic or dermatological compositions comprising such a bacterial secretome as active agent.

The present disclosure relates to an immunogenic composition comprising a combination of meningococcal antigens which comprises at least one factor H binding protein (fHBP) A protein, at least one fHBP B protein, at least one Neisseria adhesin A (NadA) protein, and at least one detergent-extracted Outer Membrane Vesicle (dOMV). The meningococcal antigens may be from a Neisseria meningitidis serogroup B. The combination of antigens provided a broad coverage of bacteria strains. Further, the present disclosure relates to the use of the immunogenic composition in methods for eliciting an immune response.

The present invention refers to a process for obtaining antigen-presenting vesicles (APV) that enables the coupling of one or more antigens, wherein such APV comprises (i) an outer membrane vesicle of gram-negative bacteria (OMV); (ii) at least one antigenic protein or peptide; and (iii) at least a pair of molecules with complementary affinities comprising a first affinity molecule that associates with the vesicle, and a complementary affinity molecule that associates with the protein or peptide. Thus, the process for obtaining the APV of the present invention is essential to achieve a form of presentation that consists of a vesicle that makes it possible to attach one or more proteins, or a plurality of different protein or peptide antigens. In that regard, such process comprises the following steps: (a) conjugating the first affinity molecule to the vesicle (OMV); (b) obtaining the antigen protein(s) or peptide(s) in fusion with the complementary affinity molecule; and (c) coupling the fusion protein obtained in step “b” with the product obtained in step “a”.

Biological strains, compositions, and methods of using the strains and compositions for reducing overall insect damage.

The present invention relates to the field of neisserial vaccine compositions (particularly gonococcal vaccine compositions) and the use of such compositions in medicine. More particularly, the present invention relates to genetically modified gonococci of strain FA1090 and outer membrane vesicles obtained therefrom. The invention also provides a process for preparing the genetically modified gonococci of the invention as well as immunogenic compositions and vaccines comprising the outer membrane vesicles of the invention.

The present invention relates to neisserial LPS having a hexa-acylated lipid A moiety, wherein the hexa-acylated lipid A moiety is modified as compared to the lipid A moiety of a wild-type neisserial LPS in that it comprises a palmitoleoyl instead of a lauroyl secondary acyl chain on the glucosamine at the non-reducing end of the lipid A moiety. The invention further relates to mixtures of the hexa-acylated LPS with the corresponding penta-acylated LPS, lacking a secondary acyl chain on the glucosamine at the non-reducing end of the lipid A moiety. The invention also relates to neisserial bacteria that have been genetically modified to reduce expression of the endogenous 1pxL1 gene and to introduce expression of a heterologous thermosensitive 1pxP gene for producing the hexa- and penta-acylated LPS. By selecting the time and/or temperature at which the bacterium is grown, it is feasible to increase or decrease the amount of hexa-acylated lipid A structure relative to the corresponding penta-acylated structure and thereby modulate the TLR4 agonist activity of the neisserial LPS of the invention, to the exact level of activity required for a particular immunotherapeutic approach.

The present invention relates to neisserial LPS having a hexa-acylated lipid A moiety, wherein the hexa-acylated lipid A moiety is modified as compared to the lipid A moiety of a wild-type neisserial LPS in that it comprises a palmitoleoyl instead of a lauroyl secondary acyl chain on the glucosamine at the non-reducing end of the lipid A moiety. The invention further relates to mixtures of the hexa-acylated LPS with the corresponding penta-acylated LPS, lacking a secondary acyl chain on the glucosamine at the non-reducing end of the lipid A moiety. The invention also relates to neisserial bacteria that have been genetically modified to reduce expression of the endogenous lpxL1 gene and to introduce expression of a heterologous thermosensitive lpxP gene for producing the hexa- and penta-acylated LPS. By selecting the time and/or temperature at which the bacterium is grown, it is feasible to increase or decrease the amount of hexa-acylated lipid A structure relative to the corresponding penta-acylated structure and thereby modulate the TLR4 agonist activity of the neisserial LPS of the invention, to the exact level of activity required for a particular immunotherapeutic approach.

Methods for detecting and diagnosing a patient with urethritis are described. Methods for detection of a strain of urethrotropic Neisseria meningitides and compositions for performing the method are provided.

Multivalent meningococcal conjugate vaccines are administered according to a schedule in which a first dose is administered to a patient aged between 0 and 12 months, and a second dose is administered to the patient aged between 12 and 24 months.

Multivalent meningococcal conjugate vaccines are administered according to a schedule in which a first dose is administered to a patient aged between 0 and 12 months, and a second dose is administered to the patient aged between 12 and 24 months.