Discovering that hepatitis E virus is associated with sperm in pigs suggests the virus may be both sexually transmitted and linked to male infertility. The study was published recently in the journal ‘PLOS Pathogens’.
Hepatitis E (HEV) is the leading cause of the acute viral liver infection in humans worldwide, mostly in developing regions where sanitation is poor.
The virus is also endemic in pigs in the United States – though it is present mostly in organs rather than muscle, and is killed when the meat is cooked.
Because HEV has been linked to fatal pregnancy complications and reports of male infertility in the developing world, researchers at The Ohio State University explored its infectivity in pigs, whose reproductive anatomy closely resembles that of humans.
After inoculating pigs with HEV, the team found the virus circulated in blood and was shed in feces, meaning that the pigs were infected, but they had no clinical symptoms – asymptomatic cases are common in humans, as well.
Results also showed HEV was present on the head of sperm cells, and that these same viral particles could infect human liver cells in culture and begin replicating.
“Our study is the first one demonstrating this association of hepatitis E virus with the sperm cell,” said first author Kush Yadav, who completed the work as a PhD student in Ohio State’s Center for Food Animal Health.
“Our future studies will be directed toward understanding the association between hepatitis E virus and the sperm head more mechanistically and using animal models to see whether sexual transmission of the virus is happening – because in the human setting, we still don’t know.”
Sexually transmitted organisms are those able to find safe haven in testicles, where they are protected by a blood-testis barrier that immune cells cannot cross.
In addition to pregnancy and reproductive disorders linked to HEV, there are signs it can also lead to pancreatic and neurological disorders in humans.
Historically, clinical infections – even in pregnant people – have been assumed to be traced to fecal-oral transmission. Yadav works in the lab of senior study author Scott Kenney, an associate professor of veterinary preventive medicine at Ohio State based in the Center for Food Animal Health at the College of Food, Agricultural, and Environmental Sciences’ Wooster campus.
Kenney studies HEV and other viruses in animals – especially those capable of infecting humans. This work is an offshoot of a larger study in pigs examining HEV strains that are resistant to antivirals.
Using fluorescence microscopy in this new study to examine pig semen 84 days after inoculation with HEV, Yadav detected viral particles associated with at least 19 per cent of sperm cells collected from the infected swine.
“We can’t say they’re sitting on the outside or inside the sperm cells,” he said. “We don’t know if the hepatitis E virus can actually complete a replication cycle in the sperm head, so we’re thinking sperm is more of a carrier than a susceptible cell.”