In a groundbreaking study, scientists describe how Ebola virus, which can persist in certain areas of the body, can re-emerge to cause fatal disease—even long after treatment with monoclonal antibodies. Their research, using a nonhuman primate model of Ebola virus infection, appears on the cover of Science Translational Medicine.
Some recent Ebola virus disease outbreaks in Africa have been linked to persistent infection in patients who had survived previous outbreaks, according to the paper’s senior author, Xiankun (Kevin) Zeng, Ph.D. In particular, the 2021 outbreak of Ebola virus disease in Guinea re-emerged from a persistently infected survivor of the previous major outbreak at least five years ago. However, the exact “hiding place” of persistent Ebola virus and the underlying pathology of subsequent recrudescent, or recurring, disease in survivors—especially those treated with standard-of-care monoclonal antibody therapeutics—were largely unknown. So Zeng and his team at the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID) used a nonhuman primate model, the one that most closely recapitulates Ebola virus disease in humans, to address these questions.
“Ours is the first study to reveal the hiding place of brain Ebola virus persistence and the pathology causing subsequent fatal recrudescent Ebola virus-related disease in the nonhuman primate model,” Zeng explained. “We found that about 20 percent of monkeys that survived lethal Ebola virus exposure after treatment with monoclonal antibody therapeutics still had persistent Ebola virus infection—specifically in the brain ventricular system, in which cerebrospinal fluid is produced, circulated, and contained—even when Ebola virus was cleared from all other organs.”
In particular, Zeng said, two monkeys that initially recovered from Ebola virus-related disease after treatment with antibody therapeutics had recurrence of severe clinical signs of Ebola virus infection and succumbed to the disease. Severe inflammation and massive Ebola virus infection were present in the brain ventricular system; no obvious pathology and viral infection were found in other organs.
Recrudescence has previously been reported in human survivors of Ebola virus disease, according to the authors. For example, a British nurse experienced Ebola virus relapse in the brain, suffering from meningoencephalitis nine months after recovering from severe Ebola virus disease. She had received therapeutic antibodies during the 2013-2016 outbreak in Western Africa, the largest such outbreak to date. In addition, a vaccinated patient who had been treated with monoclonal antibody therapeutics for Ebola virus disease six months earlier relapsed and died at the end of the 2018-2020 outbreak in the Democratic Republic of the Congo. Unfortunately, that case also led to many subsequent human-to-human transmissions.
During the past several years, Zeng’s team at USAMRIID has performed systematic studies of Ebola virus persistence using nonhuman primate survivors as a model. That research showed that the virus, despite being cleared from all other organs, can hide and persist in specific regions of immune-privileged organs—such as the vitreous chamber of eyes, the seminiferous tubules of testes, and the ventricular system of brain reported in this study.
“The persistent Ebola virus may reactivate and cause disease relapse in survivors, potentially causing a new outbreak,” said USAMRIID’s Jun Liu, Ph.D., who served as co-first author of the current paper with John C. Trefry, Ph.D.
Ebola virus causes one of the deadliest infectious diseases known to humankind. It is still a major threat in Africa, and there were three outbreaks in Africa in 2021 alone, according to the World Health Organization. Global research efforts have led to regulatory approval for two vaccines and two monoclonal antibody therapeutics to prevent and treat Ebola virus disease in recent years. Those therapeutics are now part of the standard of care for infected patients.
“Fortunately, with these approved vaccines and monoclonal antibody therapeutics, we are in a much better position to contain outbreaks,” added Zeng. “However, our study reinforces the need for long-term follow-up of Ebola virus disease survivors—even including survivors treated by therapeutic antibodies—in order to prevent recrudescence. This will serve to reduce the risk of disease re-emergence, while also helping to prevent further stigmatization of patients.”
Ebola Virus Persistence and Disease Recrudescence in the Brains of Antibody-Treated Nonhuman Primate Survivors. Liu et al., Science Translational Medicine, 9 February 2022.
Abstract: Effective therapeutics have been developed against acute Ebola virus disease (EVD) in both humans and experimentally infected nonhuman primates. However, the risk of viral persistence and associated disease recrudescence in survivors receiving these therapeutics remains unclear. In contrast to rhesus macaques that survived Ebola virus (EBOV) exposure in the absence of treatment, we discovered that EBOV, despite being cleared from all other organs, persisted in the brain ventricular system of rhesus macaque survivors that had received monoclonal antibody (mAb) treatment. In mAb-treated macaque survivors, EBOV persisted in macrophages infiltrating the brain ventricular system, including the choroid plexuses. This macrophage infiltration was accompanied by severe tissue damage, including ventriculitis, choroid plexitis, and meningoencephalitis. Specifically, choroid plexus endothelium-derived EBOV infection led to viral persistence in the macaque brain ventricular system. This resulted in apoptosis of ependymal cells, which constitute the blood–cerebrospinal fluid barrier of the choroid plexuses. Fatal brain-confined recrudescence of EBOV infection manifested as severe inflammation, local pathology, and widespread infection of the ventricular system and adjacent neuropil in some of the mAb-treated macaque survivors. This study highlights organ-specific EBOV persistence and fatal recrudescent disease in rhesus macaque survivors after therapeutic treatment and has implications for the long-term follow-up of human survivors of EVD.
The animal studies described in this paper were supported by the Biomedical Advanced Research and Development Authority.
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