Mechanism of Marburg virus sexual transmission identified in nonhuman primates

Mechanism of Marburg virus sexual transmission identified in nonhuman primates
Illustration shows Marburg virus particles (in blue) and sperm originating from the seminiferous tubule, a site of immune privilege and sperm production in the testes, of a monkey that survived Marburg virus infection. Credit: William Discher, U.S. Army Medical Research Institute of Infectious Diseases

Research published today by a team of Army scientists sheds light on the mechanism of sexual transmission of filoviruses, including Ebola and Marburg virus, which have been shown to persist in the testes and other immune privileged sites. Their work appears online in the journal Cell Host and Microbe.

Sexual of filoviruses was first reported in 1968 after an outbreak of Marburg disease and recently caused flare-ups of Ebola virus disease in the 2013-2016 outbreak, according to the authors. How filoviruses establish testicular and are shed in semen, however, was unknown.

Led by Dr. Xiankun (Kevin) Zeng, investigators at the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID) conducted a study using cynomolgus macaques to examine the persistence of Marburg virus in the testes of animals that survived infection after being treated with antiviral compounds.

The team found that Marburg virus persists in the seminiferous tubules, which are the sites of immune privilege and sperm production in the testes. Persistence leads to severe testicular damage, including cell depletion and breakdown of the blood-testis barrier, according to the authors. In addition, they identified a type of specialized cells, known as the Sertoli cells, as the reservoir for the Marburg virus.

"Importantly, we also identified local infiltration of immunosuppressive regulatory T cells, which may play an important role in sustaining Marburg virus persistence," said Zeng. "Targeting these T cells may help to clear Marburg virus from the testes, thereby preventing sexual transmission of the virus."

About 30 percent of cynomolgus monkeys that survived Marburg virus infection after antiviral treatment had persistent Marburg virus infection in the testes, but not in other common target organs such as the liver, spleen, and lymph nodes, according to the authors. The fact that it takes longer for Marburg virus to infect the testes strongly suggests that early intervention with therapeutics can prevent testicular persistence.

The 2013-2016 outbreak of Ebola virus disease in Western Africa resulted in about 11,000 deaths, and left behind the biggest cohort (over 17,000 individuals) of Ebola survivors in history, according to the World Health Organization. Many follow-up studies have detected Ebola virus RNA in the semen of survivors up to 18 months after recovery.

"Sexual transmission of Ebola virus has been implicated in the initiation of entirely new transmission chains," Zeng explained. "Our study illustrates the mechanism behind testicular filovirus persistence and of filoviruses."

According to Zeng, the team's next step is to develop animal models to evaluate the efficacy of medical countermeasures to prevent and clear Marburg and Ebola viral persistence in the testes.

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More information: Kayla M. Coffin et al, Persistent Marburg Virus Infection in the Testes of Nonhuman Primate Survivors, Cell Host & Microbe (2018). DOI: 10.1016/j.chom.2018.08.003
Citation: Mechanism of Marburg virus sexual transmission identified in nonhuman primates (2018, August 30) retrieved 25 September 2021 from
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