Human antibody targeting Crimean-Congo hemorrhagic fever virus glycoprotein 38 protects mice against heterologous virus challenge
Nathaniel S. Chapman, Viktoriya Borisevich, Nurgun Kose, Luke Myers, Stephen Priest, Éric Bergeron, Elena Trigo Esteban, María Paz Sánchez-Seco, José Melero, Thomas W. Geisbert, Robert W. Cross, James E. Crowe Jr.
Nathaniel S. Chapman, Viktoriya Borisevich, Nurgun Kose, Luke Myers, Stephen Priest, Éric Bergeron, Elena Trigo Esteban, María Paz Sánchez-Seco, José Melero, Thomas W. Geisbert, Robert W. Cross, James E. Crowe Jr.
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Research Article Infectious disease Virology

Human antibody targeting Crimean-Congo hemorrhagic fever virus glycoprotein 38 protects mice against heterologous virus challenge

Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV) is an emerging arboviral and zoonotic bunyavirus. CCHFV can infect livestock, wild animals, and humans. Here, we report the isolation of a panel of mAbs from the B cells of an immune individual following a natural nosocomial infection. We determined that the panel comprised antibodies that bound to 2 glycoproteins: (a) the carboxy-terminal glycoprotein (Gc) that serves as the fusion protein and (b) the glycoprotein 38 (GP38). By antibody variable gene analysis, we identified genetic diversity in the B cell response to CCHFV within a single donor for both Gc- and GP38-specific responses. Protection against most bunyavirus-associated diseases is mediated principally by neutralizing antibodies, but here, we found that neutralization activity was not associated with protection. Gc-specific antibodies to diverse antigenic sites neutralized only weakly and did not protect against heterologous virus challenge. GP38-specific antibodies bound to 2 dominant antigenic sites on the glycoprotein. Although GP38-specific antibodies did not neutralize the virus, one mediated protection against heterologous virus challenge in an experimental model of infection in mice primarily by complement-mediated activity. These studies support the development of protective CCHFV countermeasures against GP38.

Authors

Nathaniel S. Chapman, Viktoriya Borisevich, Nurgun Kose, Luke Myers, Stephen Priest, Éric Bergeron, Elena Trigo Esteban, María Paz Sánchez-Seco, José Melero, Thomas W. Geisbert, Robert W. Cross, James E. Crowe Jr.

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Figure 9

CCHF-82 protection capacity is primarily driven by complement activation as a postexposure prophylaxis against the Turkish strain of CCHFV in the STAT1-KO mouse model.

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CCHF-82 protection capacity is primarily driven by complement activation...
mAbs were administered once by the i.p. route to STAT1-KO mice (n = 6 per group). Animals were challenged 24 hours later with 100 PFUs of CCHFV Turkey 200406546 strain. Kaplan-Meier survival curves were statistically analyzed using a log-rank (Mantel-Cox) test where treated animals (P values shown in figure) were compared with animals treated as negative control. Weight and temperature graphs reflect group mean ± SD of the percent change in weight or temperature of animals relative to the weight or temperature of the day of virus challenge. P values were generated for each condition tested compared with the control group using a log-rank (Mantel-Cox) test using Prism 9 software (GraphPad).