Abstract
ABSTRACTHuman noroviruses are excreted in feces from infected individuals and included in wastewater. It is critical to remove/inactivate them in wastewater treatment processes, particularly in the disinfection step, before release to aquatic environments. However, the high mutation rates of human noroviruses raise concerns about the emergence of strains that are less susceptible to disinfectants and can survive even after wastewater treatment. This study aimed to demonstrate the strain-dependent susceptibility of norovirus to free chlorine. A population originated from the murine norovirus strain S7-PP3, a surrogate for human noroviruses in environmental testing, was exposed to free chlorine and then propagated in a host cell. This cycle of free chlorine exposure followed by propagation in cells was repeated 10 times, and populations with lower susceptibility to free chlorine were obtained from two independent trials of chlorine exposure cycles. Open reading frame 2 (ORF2) and ORF3 of the murine norovirus genome were analyzed by next-generation sequencing, and a unique nonsynonymous mutation (corresponding to a change from phenylalanine to serine) at nucleotide (nt) 7280 in ORF3, which encodes the minor capsid protein VP2, was found in chlorine-exposed populations from both trials. It was confirmed that all of the clones from the chlorine-treated population had lower susceptibility to free chlorine than those from the control population. These results indicate that exposure to free chlorine and dilution exert different driving forces to form murine norovirus (MNV) quasispecies, and that there is a selective force to form MNV quasispecies under free chlorine exposure.IMPORTANCE This study showed that free chlorine disinfection exerted a selection pressure for murine norovirus (MNV). The strain-dependent viral susceptibility to the disinfectant elucidated in this study highlights the importance of employing less susceptible strains as representative viruses in disinfection tests, because the disinfection rate values obtained from more susceptible strains would be less useful in predicting the virus inactivation efficiency of circulating strains under practical disinfection conditions.
Highlights
Human noroviruses are excreted in feces from infected individuals and included in wastewater
The susceptibility of chlorine-treated populations to free chlorine became gradually lower than that of the control populations, and the difference in log10 reduction value (LRV) between chlorine-treated and control populations reached 0.71 log in the first trial and 2.74 log in the second trial. These results demonstrate that murine norovirus (MNV) populations with relatively lower susceptibility to free chlorine were reproducibly obtained by the repeated exposure to free chlorine
The next-generation sequencing (NGS) results showed that the ratio of a nonsynonymous mutation in ORF3, which encodes the minor capsid protein VP2, gradually increased when the MNV population was repeatedly treated with free chlorine
Summary
Human noroviruses are excreted in feces from infected individuals and included in wastewater. A population originated from the murine norovirus strain S7-PP3, a surrogate for human noroviruses in environmental testing, was exposed to free chlorine and propagated in a host cell. Another study reported mean (ϮSD) LRVs of 1.65 (Ϯ1.16) and 2.14 (Ϯ0.83) at a WWTP and mean (ϮSD) LRVs of 2.57 (Ϯ1.01) and 2.85 (Ϯ0.83) at another WWTP, for noroviruses GI and GII, respectively; both WWTPs employ chlorine disinfection as the final treatment process [17]. These results indicate that the susceptibility of human noroviruses to wastewater treatment processes, including free chlorine treatment, varies among genogroups
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