Lactoferrin-hexon interactions mediate CAR-independent adenovirus infection of human respiratory cells.

: Virus entry into host cells is a complex process that is largely regulated by the access to specific cellular receptors. Human adenoviruses (HAdVs) and many other viruses use cell adhesion molecules such as the Coxsackievirus and adenovirus receptor (CAR) for attachment to and entry into target cells. These molecules are rarely expressed on the apical side of polarized epithelial cells, which raise the question how adenovirus - and other viruses that engage cell adhesion molecules - enter polarized cells from the apical side to initiate infection. We have previously shown that species C HAdVs utilize lactoferrin - a common innate immune component secreted to respiratory mucosa for infection via unknown mechanisms. Using a series of biochemical, cellular, and molecular biology approaches, we map this effect to the proteolytically cleavable, positively charged, N-terminal 49 residues of human lactoferrin (hLF) known as lactoferricin (hLfcin). Lfcin binds to the hexon protein on the viral capsid, and anchors the virus to an unknown receptor of target cells, resulting in infection. These findings suggests that HAdVs use distinct cell entry mechanisms at different stages of infection. To initiate infection, entry is likely to occur at the apical side of polarized epithelial cells largely by means of hLF and hLfcin bridging HAdV capsids via hexons to as yet unknown receptors, and when infection is established, progeny virions released from the basolateral side enter neighbouring cells by means of hLF/hLfcin and CAR in parallel.IMPORTANCE Many viruses enter target cells using cell adhesion molecules as receptors. Paradoxically, these molecules are abundant on the lateral and basolateral side of intact, polarized, epithelial target cells, but absent on the apical side that must be penetrated by incoming viruses to initiate infection. Our study provides a model whereby viruses use different mechanisms to infect polarized epithelial cells depending on which side of the cell - apical or lateral/basolateral - is attacked. This study may also be useful to understand the biology of other viruses that use cell adhesion molecules as receptors.