摘要:
The present invention is related with the field of Biomedicine. It comprises the engineering of the Pertactin protein (Prn) and using it as part of bacterial vaccines, and more precisely, as part of acellular vaccines against Bordetella pertusis. The engineered Prn molecules comprise on their structure polimorfisms from different B. pertussis strains, and induce immune responses with protective capacity and opsonophagocytic activity when assayed as vaccines, higher than that generated by other pre-existing vaccines. The engineered Prn variants of the present invention are applicable in human and veterinary medicine.
摘要:
The invention provides a stable immunogenic composition for prevention and prophylaxis of infections caused by rota virus, poliomyelitis virus, Haemophilius influenza, Hepatitis B, Corynebacterium diphtheriae, Clostridium tetani, Bordatella pertusis (acellular) in a single combined vaccine. The invention also provides for a bivalent immunogenic composition against rota virus and polio virus. The process of making such compositions of the multivalent antigens are also disclosed. The present invention also relates to the production and use of such vaccines for prophylaxis against the infections mentioned above.
摘要:
This disclosure provides recombinant respiratory syncytial virus (RSV) antigens and methods for making and using them, including immunogenic compositions (e.g., vaccines) for the treatment and/or prevention of RSV infection.
摘要:
The invention improves TdaP vaccines by including a TLR agonist in them. This agonist can provide stronger protection, longer-lasting protection, and/or can reduce the amount of antigen which is required to achieve a particular immune response.
摘要:
Methods and compositions are provided for delivery of a polynucleotide encoding a gene of interest, typically an antigen, to a dendritic cell (DC). The virus envelope comprises a DC-SIGN specific targeting molecule. The methods and related compositions can be used to treat patients suffering from a wide range of conditions, including infection, such as HIV/AIDS, and various types of cancers.
摘要:
The disclosure provides compositions, methods and kits for assessing immunogenicity, potency, or both, of meningococcal capsular saccharide vaccines. The assessment is based upon measurement of binding of a bactericidal antibody to a capsular saccharide component in the vaccine.
摘要:
A novel gene (designated 162P1E6) and its encoded protein, and variants thereof, are described wherein 162P1E6 exhibits tissue specific expression in normal adult tissue, and is aberrantly expressed in the cancers listed in Table I. Consequently, 162P1E6 provides a diagnostic, prognostic, prophylactic and/or therapeutic target for cancer. The 162P1E6 gene or fragment thereof, or its encoded protein, or variants thereof, or a fragment thereof, can be used to elicit a humoral or cellular immune response; antibodies or T cells reactive with 162P1E6 can be used in active or passive immunization.
摘要:
Anti-glucan antibodies have been found to be protective against systemic fungal infection with C. albicans, but the protective efficacy can be inhibited by blocking antibodies. The invention provides an immunogenic composition comprising a glucan and a pharmaceutically acceptable carrier, characterised in that, when administered to a mammalian recipient, the composition elicits protective anti-glucan antibodies but does not elicit antibodies which inhibit the protective efficacy of the anti-glucan antibodies. The glucan may be presented on the surface of a protease-treated microbial cell or may be presented as a protein-glucan conjugate. The glucan may be substituted by a glucan mimotope, a peptidomimetic of a glucan mimotope, or nucleic acid encoding a mimotope. Anti-glucan-antibodies show broad spectrum microbicidal activity. β-glucans are preferred, particularly those containing one or more β-1,6 linkages.
摘要:
The invention involves the detection of virally infected cells by antibodies or antibody fragments which selectively bind to TSG101. TSG101 is on the surface of mammalian cells, and thus available for detection by antibodies, during viral budding—a phenomenon wherein viral particles escape a virally infected cell after propagation in that cell, so as to infect other cells. To achieve budding, a protein, TSG101 is “hijacked” and misdirected to, or mis-expressed on, the surface of the infected cell. Antibodies can be used to selectively detect such infected cells. Certain TSG101 antibodies may provide therapeutic benefit when administered to infected mammals.