Inactivated Hantaan virus vaccine derived from suspension culture of Vero cells.

We have developed a cell culture-derived, inactivated vaccine against Hantaan virus for prevention of the hemorrhagic fever with renal syndrome (HFRS). Hantaan virus was purified from a microcarrier culture of Vero E6 cells by ultrafiltration and density gradient centrifugation. Viral infection was inactivated by treatment of the viral stock with formaldehyde. Immunogenic properties of the vaccine were characterized in comparison with Hantavax, a mouse brain-derived, formalin-inactivated vaccine that has been in human use for a decade in Korea. Compared to the Hantavax, immunization of Balb/c mice with the cell culture-based vaccine resulted in a moderate difference in antibody response to the viral nucleocapsid protein but more than five-fold increase in neutralizing activity. Moreover, all six mice immunized with 5 microg of the cell culture-based vaccine were fully protected from challenge with infectious virus, whereas virus was detected in lung and spleen of all animals immunized with the same dose of Hantavax. Four times higher dose of the latter vaccine was needed for complete protection. In the analysis of the humoral immune response to the vaccines, we found that all three viral structural proteins, N, G1 and G2 were immunoprecipitated by sera from animals immunized with the cell culture-based vaccine. In contrast, N and some G1 but no G2 were precipitated by the sera from animals immunized with Hantavax. These results suggest that the cell culture-based vaccine can provide more effective immunity than the Hantavax.

[1]  K. Johnson,et al.  Isolation of the etiologic agent of Korean Hemorrhagic fever. , 1978, The Journal of infectious diseases.

[2]  J. Weng,et al.  Investigation on inactivated epidemic hemorrhagic fever tissue culture vaccine in humans. , 1994, Chinese medical journal.

[3]  F. Elgh,et al.  Comparison of the protective efficacy of naked DNA, DNA-based Sindbis replicon, and packaged Sindbis replicon vectors expressing Hantavirus structural genes in hamsters. , 1999, Virology.

[4]  C. Howard,et al.  Antibody responses in humans to an inactivated hantavirus vaccine (Hantavax). , 1999, Vaccine.

[5]  L. Reed,et al.  A SIMPLE METHOD OF ESTIMATING FIFTY PER CENT ENDPOINTS , 1938 .

[6]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.

[7]  H. Asada,et al.  Development of inactivated vaccine against virus causing haemorrhagic fever with renal syndrome. , 1988, Vaccine.

[8]  C. Schmaljohn Prospects for vaccines to control viruses in the family Bunyaviridae , 1994 .

[9]  Y. Yoo,et al.  Protective immunity of Hantaan virus nucleocapsid and envelope protein studied using baculovirus-expressed proteins , 2005, Archives of Virology.

[10]  E. Thompson,et al.  DNA Vaccination with the Hantaan Virus M Gene Protects Hamsters against Three of Four HFRS Hantaviruses and Elicits a High-Titer Neutralizing Antibody Response in Rhesus Monkeys , 2001, Journal of Virology.

[11]  H. Asada,et al.  Role of T lymphocyte subsets in protection and recovery from Hantaan virus infection in mice. , 1987, The Journal of general virology.

[12]  J. Dalrymple,et al.  Antigenic subunits of Hantaan virus expressed by baculovirus and vaccinia virus recombinants , 1990, Journal of virology.

[13]  B. Montagnon Polio and rabies vaccines produced in continuous cell lines: a reality for Vero cell line. , 1989, Developments in biological standardization.

[14]  Y. Sohn,et al.  Primary humoral immune responses to formalin inactivated hemorrhagic fever with renal syndrome vaccine (Hantavax): consideration of active immunization in South Korea. , 2001, Yonsei medical journal.

[15]  J. Dalrymple,et al.  Characterization of Hantaan virus envelope glycoprotein antigenic determinants defined by monoclonal antibodies. , 1989, The Journal of general virology.

[16]  J. McCormick,et al.  Hantaan virus: identification of virion proteins. , 1984, The Journal of general virology.

[17]  L. Baek,et al.  Field trial of an inactivated vaccine against hemorrhagic fever with renal syndrome in humans , 1990 .

[18]  C. Schmaljohn,et al.  Clinical evaluation of a vaccinia‐vectored Hantaan virus vaccine , 2000, Journal of medical virology.

[19]  H. Asada,et al.  Cell-mediated immunity to virus causing haemorrhagic fever with renal syndrome: generation of cytotoxic T lymphocytes. , 1988, The Journal of general virology.

[20]  Y. Takahashi,et al.  Evaluation of focus reduction neutralization test with peroxidase-antiperoxidase staining technique for hemorrhagic fever with renal syndrome virus , 1984, Journal of clinical microbiology.

[21]  G. van der Groen,et al.  Hemorrhagic fever with renal syndrome. , 2020, Progress in medical virology. Fortschritte der medizinischen Virusforschung. Progres en virologie medicale.

[22]  Y. Chu,et al.  A vaccinia virus-vectored Hantaan virus vaccine protects hamsters from challenge with Hantaan and Seoul viruses but not Puumala virus , 1995, Journal of virology.

[23]  K. Yoshimatsu,et al.  Characterization of the Mode of Hantaan Virus Infection in Adult Mice Using a Nested Reverse Transcriptase Polymerase Chain Reaction: Transient Virus Replication in Adult Mice , 1995, Microbiology and immunology.

[24]  C. Schmaljohn,et al.  Expression of the Hantaan virus M genome segment by using a vaccinia virus recombinant , 1988, Journal of virology.

[25]  H. W. Lee,et al.  Hemorrhagic fever with renal syndrome in Korea. , 1989, Reviews of infectious diseases.