Abstract
Herpes simplex virus 1 (HSV1) infects the stratified epithelia of the epidermis, oral or genital mucosa, where the main cell type is the keratinocyte. Here we have used nTERT human keratinocytes to generate a CRISPR-Cas9 knockout (KO) of the primary candidate HSV1 receptor, nectin1, resulting in a cell line that is refractory to HSV1 entry. Nonetheless, a small population of KO cells was able to support infection which was not blocked by a nectin1 antibody and hence was not a consequence of residual nectin1 expression. Strikingly at later times, the population of cells originally resistant to HSV1 infection had also become infected. Appearance of this later population was blocked by inhibition of virus genome replication, or infection with a ΔUL34 virus defective in capsid export to the cytoplasm. Moreover, newly formed GFP-tagged capsids were detected in cells surrounding the initial infected cell, suggesting that virus was spreading following replication in the original susceptible cells. Additional siRNA depletion of the second major HSV1 receptor HVEM, or PTP1B, a cellular factor shown elsewhere to be involved in cell-to-cell transmission, had no effect on virus spread in the absence of nectin1. Neutralizing human serum also failed to block virus transmission in nectin1 KO cells, which was dependent on the receptor binding protein glycoprotein D and the cell-to-cell spread glycoproteins gI and gE, indicating that virus was spreading by direct cell-to-cell transmission. In line with these results, both HSV1 and HSV2 formed plaques on nectin1 KO cells, albeit at a reduced titre, confirming that once the original cell population was infected, the virus could spread into all other cells in the monolayer. We conclude that although nectin1 is required for extracellular entry in to the majority of human keratinocytes, it is dispensable for direct cell-to-cell transmission.
Highlights
Herpes simplex virus type 1 (HSV1) infects and is generally restricted to the stratified epithelial cells of the skin, oral mucosa, cornea or the genital mucosa before transmitting to and establishing lifelong latent infection in sensory neurons [1]
Having acquired an antibody which recognises human nectin1 by flow cytometry, and to a lesser extent immunofluorescence, we have extended this data to determine the level of nectin1 protein on the cell surface of relevant cell types
Flow cytometry on nonpermeabilised cells stained for cell-surface nectin1 revealed that nTERT and HaCaT keratinocytes express around 50-fold and 20-fold more nectin1 respectively on their cell surface compared to HeLa cells (Fig 1B and 1C)
Summary
Herpes simplex virus type 1 (HSV1) infects and is generally restricted to the stratified epithelial cells of the skin, oral mucosa, cornea or the genital mucosa before transmitting to and establishing lifelong latent infection in sensory neurons [1]. We have been studying HSV1 entry in the nTERT keratinocyte line, a diploid line derived from primary human keratinocytes. These cells have been retrovirally induced to express the catalytic subunit of the telomerase holoenzyme hTERT, and have spontaneously lost the function of p16INK4a which usually inhibits the transition from G1 to S phase, allowing the maintenance of growth for much longer than normal primary cell types [3]. NTERT cells are still dependent on epidermal growth factor and are able to differentiate [4] These cells offer a tractable system that are physiologically relevant for the investigation of HSV1 infection of human tissue. HSV1 enters and replicates rapidly in these human keratinocytes [5], indicating that the virus is exquisitely adapted to grow in these cells
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