Abstract Antibody-mediated humoral immunity is thought to play a central role in mediating the immunopathogenesis of acute DENV infection, but limited data are available on the molecular-level diversity, specificity, and functionality of the antibody response elicited by primary or secondary DENV infection. In order to close this functional gap in our understanding of DENV-specific humoral immunity, we utilized high-throughput single cell RNA sequencing to investigate B cells circulating in both primary and secondary natural DENV infections. We captured full-length paired immunoglobulin receptor sequence data from 9,027 B cells from a total of 6 subjects, including 2,717 plasmablasts. Unexpectedly, we found a high proportion of the DENV-elicited plasmablasts expressing IgA, principally in individuals with primary DENV infections. These IgA class-switched cells were extensively hypermutated and appeared to be derived from memory B cells, even in individuals with a serologically confirmed primary DENV infection. Utilizing a combination of conventional proteomics and high-throughput shotgun mutagenesis, we determined that DENV-reactive IgA class-switched antibodies represent a significant fraction of DENV-reactive and DENV-neutralizing Igs generated in response to DENV infection, and that they exhibit a comparable epitope specificity to DENV-reactive IgG antibodies. These results identify a heretofore unappreciated role for DENV-reactive IgA in the humoral response to DENV infection, and may offer insight into the differential pathogenesis associated with primary and secondary DENV infections.