Antibody Responses to Zika Virus Infections in Environments of Flavivirus Endemicity.
Pubmed ID: 28228395
Pubmed Central ID: PMC5382833
Journal: Clinical and vaccine immunology : CVI
Publication Date: April 5, 2017
MeSH Terms: Humans, Animals, Antibodies, Viral, Flaviviridae Infections, Endemic Diseases, Microarray Analysis, Cross Reactions, Antibody Formation, Macaca mulatta, Primate Diseases, Protein Array Analysis
Grants: R01 AI096215, R01 AI116382
Authors: Keasey SL, Pugh CL, Smith JL, Hontz RD, Durbin AP, Dudley DM, O'Connor DH, Ulrich RG, Jensen SMR
Cite As: Keasey SL, Pugh CL, Jensen SMR, Smith JL, Hontz RD, Durbin AP, Dudley DM, O'Connor DH, Ulrich RG. Antibody Responses to Zika Virus Infections in Environments of Flavivirus Endemicity. Clin Vaccine Immunol 2017 Apr 5;24. (4). Print 2017 Apr.
Studies:
- West Nile Virus Study (WNV)
Abstract
Zika virus (ZIKV) infections occur in areas where dengue virus (DENV), West Nile virus (WNV), yellow fever virus (YFV), and other viruses of the genus <i>Flavivirus</i> cocirculate. The envelope (E) proteins of these closely related flaviviruses induce specific long-term immunity, yet subsequent infections are associated with cross-reactive antibody responses that may enhance disease susceptibility and severity. To gain a better understanding of ZIKV infections against a background of similar viral diseases, we examined serological immune responses to ZIKV, WNV, DENV, and YFV infections of humans and nonhuman primates (NHPs). Using printed microarrays, we detected very specific antibody responses to primary infections with probes of recombinant E proteins from 15 species and lineages of flaviviruses pathogenic to humans, while high cross-reactivity between ZIKV and DENV was observed with 11 printed native viruses. Notably, antibodies from human primary ZIKV or secondary DENV infections that occurred in areas where flavivirus is endemic broadly recognized E proteins from many flaviviruses, especially DENV, indicating a strong influence of infection history on immune responses. A predictive algorithm was used to tentatively identify previous encounters with specific flaviviruses based on serum antibody interactions with the multispecies panel of E proteins. These results illustrate the potential impact of exposure to related viruses on the outcome of ZIKV infection and offer considerations for development of vaccines and diagnostics.