De-glycosylated non-structural protein 1 enhances dengue virus clearance by limiting PD-L1/PD-1 mediated T cell apoptosis

Abstract

ABSTRACTThe non-structural protein 1 (NS1) of dengue virus (DENV) contains two highly conserved N-glycosylation sites at positions 130 and 207 (N130 and N207). Intracellular NS1 monomers and homo-dimers participate in viral RNA replication within membrane-bound replication complexes. Soluble multimeric NS1 (sNS1) is secreted into the extracellular milieu and represents an important virulence factor for DENV through its ability to interfere with the host complement activation cascade and to induce vascular leakage. The role of the two N-glycans in NS1 biological activities, however, has not been carefully examined. Here, stable DENV2 mutants that lack glycan at either N sites of NS1 were engineered. We showed that the lack of glycans at either N site of NS1 did not impair viral replication nor viral output in both mosquito and mammalian cell lines. In contrast, while N130 de-glycosylated DENV displayed parentalin vivofitness in IFNAR-/-mice, the N207 de-glycosylated mutant was significantly attenuated as evidenced by 100% survival rate, which correlated with accelerated viral clearance in circulation. sNS1-depletion, sNS1 exogenous administration and co-infection experiments supported that N207 de-glycosylated NS1 exerted a dominant attenuating effect duringin vivoinfection. Bulk RNAseq, inflammatory cytokine profile, immune phenotyping of neutrophils and T cells, immune cell depletion and immune checkpoint blockade approaches led us to propose that N207 de-glycosylated NS1 limited CD8+T cell apoptosis mediated by the PD-L1/PD-1 axis, thereby improving viral clearance efficacy. This work uncovers a novel immune evasion strategy where N207 glycans on NS1 prevent the protein from exerting immune modulation activity that would be detrimental to DENV.