OBJECTIVE: To develop a specific SARS virus-targeted antibody preparation for emergent prophylaxis and treatment of SARS virus infection. METHODS: By using phage display technology, we constructed a naive antibody library from convalescent SARS patient lymphocytes. To obtain the neutralizing antibody to SARS virus surface proteins, the library panning procedure was performed on purified SARS virions and the specific Fab antibody clones were enriched by four rounds of repeated panning procedure and screened by highthroughput selection. The selected Fab antibodies expressed in the periplasma of E. coli were soluble and further purified and tested for their binding properties and antiviral function to SARS virus. The functional Fab antibodies were converted to full human IgG antibodies with recombinant baculovirus/insect cell systems and their neutralizing activities were further determined. RESULTS: After four rounds of the panning, a number of SARS-CoV virus-targeted human recombinant Fab antibodies were isolated from the SARS patient antibody library. Most of these were identified to recognize both natural and recombinant SARS spike (S) proteins, two Fab antibodies were specific for the virus membrane (M) protein, only one bound to SARS-CoV nucleocapsid protein. The SARS-CoV S and M protein-targeted Fab or IgG antibodies showed significant neutralizing activities in cytopathic effect (CPE) inhibition neutralization test, these antibodies were able to completely neutralize the SARS virus and protect the Vero cells from CPE after virus infection. However, the N protein-targeted Fab or IgG antibodies failed to neutralize the virus. In addition, the SARS N protein-targeted human Fab antibody reacted with the denatured N proteins, whereas none of the S and M protein specific neutralizing antibodies did. These results suggested that the S and M protein-specific neutralizing antibodies could recognize conformational epitopes which might be involved in the binding of virions to cellular receptors and the fusion activity of the virus. CONCLUSION: The SARS-CoV spike protein and membrane proteins are able to elicite efficient neutralizing antibodies in SARS patients. The neutralizing antibodies we generated in this study may be more promising candidates for prophylaxis and treatment of SARS infection.
OBJECTIVE: To develop a specific SARS virus-targeted antibody preparation for emergent prophylaxis and treatment of SARS virus infection. METHODS: By using phage display technology, we constructed a naive antibody library from convalescent SARSpatient lymphocytes. To obtain the neutralizing antibody to SARS virus surface proteins, the library panning procedure was performed on purified SARS virions and the specific Fab antibody clones were enriched by four rounds of repeated panning procedure and screened by highthroughput selection. The selected Fab antibodies expressed in the periplasma of E. coli were soluble and further purified and tested for their binding properties and antiviral function to SARS virus. The functional Fab antibodies were converted to full human IgG antibodies with recombinant baculovirus/insect cell systems and their neutralizing activities were further determined. RESULTS: After four rounds of the panning, a number of SARS-CoV virus-targeted human recombinant Fab antibodies were isolated from the SARSpatient antibody library. Most of these were identified to recognize both natural and recombinant SARS spike (S) proteins, two Fab antibodies were specific for the virus membrane (M) protein, only one bound to SARS-CoV nucleocapsid protein. The SARS-CoV S and M protein-targeted Fab or IgG antibodies showed significant neutralizing activities in cytopathic effect (CPE) inhibition neutralization test, these antibodies were able to completely neutralize the SARS virus and protect the Vero cells from CPE after virus infection. However, the N protein-targeted Fab or IgG antibodies failed to neutralize the virus. In addition, the SARS N protein-targeted humanFab antibody reacted with the denatured N proteins, whereas none of the S and M protein specific neutralizing antibodies did. These results suggested that the S and M protein-specific neutralizing antibodies could recognize conformational epitopes which might be involved in the binding of virions to cellular receptors and the fusion activity of the virus. CONCLUSION: The SARS-CoV spike protein and membrane proteins are able to elicite efficient neutralizing antibodies in SARSpatients. The neutralizing antibodies we generated in this study may be more promising candidates for prophylaxis and treatment of SARS infection.
Authors: Kumar Singh Saikatendu; Jeremiah S Joseph; Vanitha Subramanian; Benjamin W Neuman; Michael J Buchmeier; Raymond C Stevens; Peter Kuhn Journal: J Virol Date: 2007-01-17 Impact factor: 5.103
Authors: Kristian Daniel Ralph Roth; Esther Veronika Wenzel; Maximilian Ruschig; Stephan Steinke; Nora Langreder; Philip Alexander Heine; Kai-Thomas Schneider; Rico Ballmann; Viola Fühner; Philipp Kuhn; Thomas Schirrmann; André Frenzel; Stefan Dübel; Maren Schubert; Gustavo Marçal Schmidt Garcia Moreira; Federico Bertoglio; Giulio Russo; Michael Hust Journal: Front Cell Infect Microbiol Date: 2021-07-07 Impact factor: 5.293
Authors: James H Kimotho; Abdiaziz A Gosar; Ronald Inyangala; Paulyne Wairimu; Fred Siyoi; Damaris Matoke-Muhia; Cecilia Wanjala; Jeremiah Zablon; Moses Orina; Lucy Muita; Jacqueline Thiga; Lameck Nyabuti; Eunice Wainaina; Joseph Mwangi; Alice Mumbi; Samuel Omari; Ann Wanjiru; Samson M Nzou; Missiani Ochwoto Journal: Afr J Lab Med Date: 2021-09-17