RSV can infect the human nasal epithelium via the basolateral route and shows distinct subgroup infectivity and basal cell tropism

Respiratory syncytial virus (RSV) causes millions of lower respiratory tract infections (LRTIs) in young children, older adults, and immunocompromised populations every year. RSV infection initiates in the upper respiratory tract and can progress to the lower airways, resulting in bronchiolitis, pneumonia, and even death. RSV primarily infects epithelial cells apically, but we hypothesized that basolateral exposure of the respiratory epithelium could provide an alternative mechanism of infection that contributes to LRTI development. Using a human nose organoid-air-liquid interface (HNO-ALI) model, we performed apical and basolateral inoculations with contemporaneous RSV strains (RSV/A/Ontario [RSV/A/ON] and RSV/B/Buenos Aires [RSV/B/BA]) representing the two RSV subgroups (A and B) in both adult- and infant-derived HNO-ALIs. Basolateral RSV exposure resulted in delayed viral replication and apical release compared to apical infection. A statistically significant difference in basolateral infection frequency was observed between RSV/B/BA and RSV/A/ON (81.3% versus 25%). Basolateral infection selectively targeted a rare basal cell population, while preserving epithelial integrity. Using undifferentiated HNO-ALIs, we determined for the first time that Krt23+ activated basal cells are uniquely susceptible to RSV infection, a finding we confirmed in fully differentiated HNO-ALIs. Together, our findings show that RSV can infect the respiratory epithelium from the basolateral side by initially targeting a rare subset of basal cells before spreading apically to ciliated cells. Moreover, RSV/B/BA may have an advantage over RSV/A/ON in utilizing the basolateral infection route. These findings highlight an alternative RSV infection pathway and could be a potential mechanism for RSV spread to the lower airways.