An adenovirus type 5 (AdV5) vector encoding an envelope domain III-based tetravalent antigen elicits immune responses against all four dengue viruses in the presence of prior AdV5 immunity. Khanam S, Pilankatta R, Khanna N, Swaminathan S Vaccine
27
6011-21 Epub 2009 Aug 7
2009
Mostrar Resumo
Dengue is a mosquito-borne viral disease caused by four antigenically distinct serotypes of dengue viruses (DENVs). This disease, which is prevalent in over a hundred tropical and sub-tropical countries of the world, represents a significant global public health problem. A tetravalent dengue vaccine capable of protecting against all four DENV serotypes has been elusive so far. Current efforts are focused on producing a tetravalent vaccine by mixing four monovalent vaccine components. In this work, we have utilized a discrete carboxy-terminal region of the major DENV envelope (E) protein, known as domain III (EDIII), which mediates virus entry into target cells and contains multiple serotype-specific neutralizing epitopes, to create a chimeric tetravalent antigen. This antigen derived by in-frame fusion of the EDIII-encoding sequences of the four DENV serotypes was expressed using a replication-defective recombinant human adenovirus type 5 (rAdV5) vaccine vector. This rAdV5 vector induced cell-mediated immune responses and virus-neutralizing antibodies specific to each of the four DENVs in mice. Interestingly, anti-AdV5 antibodies did not suppress the induction of DENV-specific neutralizing antibodies. We observed that anti-AdV5 antibodies in the sera of immunized mice could promote uptake of a rAdV5-derived reporter vector into U937 cells, suggesting that pre-existing immunity to AdV5 may in fact facilitate the uptake of rAdV5 vectored vaccines into antigen presenting cells. This work presents an alternative approach to developing a single component tetravalent vaccine that bypasses the complexities inherent in the currently adopted four-in-one physical mixture approach. | 19665609
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Induction of neutralizing antibodies specific to dengue virus serotypes 2 and 4 by a bivalent antigen composed of linked envelope domains III of these two serotypes. Saima Khanam, Behzad Etemad, Navin Khanna, Sathyamangalam Swaminathan The American journal of tropical medicine and hygiene
74
266-77
2006
Mostrar Resumo
There is no vaccine to prevent dengue fever, a mosquito-borne viral disease, caused by four serotypes of dengue viruses. In this study, which has been prompted by the emergence of dengue virus envelope domain III as a promising sub-unit vaccine candidate, we have examined the possibility of developing a chimeric bivalent antigen with the potential to elicit neutralizing antibodies against two serotypes simultaneously. We created a chimeric dengue antigen by splicing envelope domain IIIs of serotypes 2 and 4. It was expressed in Escherichia coli and purified to near homogeneity. This protein retains the antigenic identities of both its precursors. It elicited antibodies that could efficiently block host cell binding of both serotypes 2 and 4 of dengue virus and neutralize their infectivity (neutralizing antibody titers approximately 1:40 and ~1:80 for dengue virus serotypes 2 and 4, respectively). This work could be a forerunner to the development of a single envelope domain III-based tetravalent antigen. | 16474083
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Identification of distinct antigenic determinants on dengue-2 virus using monoclonal antibodies. Gentry, M K, et al. Am. J. Trop. Med. Hyg., 31: 548-55 (1982)
1982
Mostrar Resumo
Monoclonal antibodies directed against antigenic determinants of the New Guinea C strain of dengue-2 virus were obtained from lymphocyte hybridomas produced by fusing immune mouse lymphocytes with mouse myeloma cells. Hybridoma cell culture supernatants were screened by using a radioimmunoassay employing detergent-solubilized dengue-2 infected cell antigens. Monoclonal antibodies in ascitic fluids induced by 22 selected hybridomas were characterized by the hemagglutination-inhibition, plaque reduction neutralization, immunofluorescence, and complement-fixation tests. Both type-specific and broadly cross-reactive antibodies were observed, and immunoglobulin subclasses IgG1 and IgG2a were represented in both groups. At least three distinct antigenic determinants on the virion were defined using these antibodies. A single hybridoma produced antibody which recognized a dengue-2 virus type-specific determinant and exhibited high titered neutralization but had a low titer by hemagglutination inhibition. Four preparations reacted with a type-specific determinant and exhibited hemagglutination inhibition but did not neutralize. Seventeen hybridomas produced antibodies which were broadly cross reactive in all tests. Only two preparations reacted by complement fixation with dengue-2 antigens; both were cross reactive. Immunofluorescence specificity or cross reactivity correlated with neutralization and/or hemagglutination-inhibition. The dengue-2 virus type-specific antibody useful for identification of dengue-2 infected cells by immunofluorescence has been deposited in the Hybridoma Cell Bank of the American Type Culture Collection. | 6177259
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