Transmissibility, infectivity, and immune resistance of the SARS-CoV-2 BA.2.86 variant

Abstract

AbstractIn September 2023, the SARS-CoV-2 XBB descendants, such as XBB.1.5 and EG.5.1 (originally XBB.1.9.2.5.1), are predominantly circulating worldwide. Unexpectedly, however, a lineage distinct from XBB was identified and named BA.2.86 on August 14, 2023. Notably, BA.2.86 bears more than 30 mutations in the spike (S) protein when compared to XBB and the parental BA.2, and many of them are assumed to be associated with immune evasion. Although the number of reported cases is low (68 sequences have been reported as of 7 September 2023), BA.2.86 has been detected in several continents (Europe, North America and Africa), suggesting that this variant may be spreading silently worldwide. On 17 August 2023, the WHO designated BA.2.86 as a variant under monitoring. Here we show evidence suggesting that BA.2.86 potentially has greater fitness than current circulating XBB variants including EG.5.1. The pseudovirus assay showed that the infectivity of BA.2.86 was significantly lower than that of B.1.1 and EG.5.1, suggesting that the increased fitness of BA.2.86 is not due to the increased infectivity. We then performed a neutralization assay using XBB breakthrough infection sera to address whether BA.2.86 evades the antiviral effect of the humoral immunity induced by XBB subvariants. The 50% neutralization titer of XBB BTI sera against BA.2.86 was significantly (1.6-fold) lower than those against EG.5.1. The sera obtained from individuals vaccinated with 3rd-dose monovalent, 4th-dose monovalent, BA.1 bivalent, and BA.5 bivalent mRNA vaccines exhibited very little or no antiviral effects against BA.2.86. Moreover, the three monoclonal antibodies (Bebtelovimab, Sotrovimab and Cilgavimab), which worked against the parental BA.2, did not exhibit antiviral effects against BA.2.86. These results suggest that BA.2.86 is one of the most highly immune evasive variants ever.