Scientists May Have Finally Found the Mysterious Animal Hosts of Mpox
A team of researchers traced the wild animal source of the mpox virus to the fire-footed rope squirrel
Cuvier’s fire-footed squirrel (Funisciurus pyrrhopus) in a tree.
One of the great mysteries of the monkeypox virus has been pinpointing its ‘reservoir’ hosts—the animals that carry and spread the virus without becoming sick from it.
Now, an international team of scientists suggests that it has an answer: the fire-footed rope squirrel (Funisciurus pyrropus), a forest-dwelling rodent found in West and Central Africa.
Although the name ‘monkeypox’ comes from the virus’s discovery in laboratory monkeys in 1958, researchers have long suspected rodents and other small mammals in Africa of being reservoir hosts. And studies published in the past year have demonstrated that African outbreaks of mpox, the disease caused by the virus, have been fueled by several transmission events from animals to humans.
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Pinpointing viral reservoirs is crucial to breaking the vicious cycle of transmission, says Placide Mbala, an epidemiologist at the National Institute of Biomedical Research in Kinshasa, the capital of the Democratic Republic of the Congo. By identifying the sources, scientists could work with local communities to design strategies to shield people from infection—for instance, safe handling of wild-animal meat.
The identification of the squirrel is “exceptional” detective work and provides compelling evidence, says Alexandre Hassanin, who studies the evolution of monkeypox at Sorbonne University in Paris. He and others who spoke to Nature, however, aren’t sure that the study definitively establishes F. pyrropus as a monkeypox reservoir, but they applaud the long-term wildlife-surveillance work.
The report was posted as a preprint, ahead of peer review, to the Research Square server on 8 April. (Research Square is owned by Springer Nature, Nature’s publisher.)
Although mpox has affected Africa for decades, it captured headlines worldwide in 2022 when the virus sparked a global outbreak, fueled by human-to-human transmission. Last August, the World Health Organization declared another global emergency after a worrisome strain of the virus spread to previously unaffected African countries.
As these outbreaks have become more common, one question on researchers’ minds has been their animal sources. A clue emerged in 2023 in Taï National Park in Côte d’Ivoire, where a team of researchers has been monitoring a group of sooty mangabeys (Cercocebus atys) for many years. In late January that year, Carme Riutord-Fe, a disease ecologist at the Swiss Centre of Scientific Research in Abidjan, noticed an infant mangabey with red skin lesions on its forehead, chest and legs. The fluid-filled lesions, characteristic of mpox, quickly spread across its body, and it died two days later.
But what was the source?
For most outbreak investigations, scientists begin collecting animal samples weeks or months after the first reported cases. Animals don’t always carry detectable levels of the virus, and those responsible for the outbreak might have left the “crime scene” by the time researchers arrive, says Fabian Leendertz, leader of the work and founding director of the Helmholtz Institute. This makes it difficult to pinpoint disease origins, he says.
In the case of the mangabey outbreak, however, “we were there when it happened,” Leendertz says. His team has been monitoring several populations of free-living, non-human primates in the Taï forest on a daily basis since 2001 to better understand pathogens relevant to humans.
When mpox struck in 2023, archived samples of the mangabeys’ urine and faeces, as well as tissues and swabs from dead animals found in the forest, proved invaluable. Monkeypox virus showed up in faecal samples collected as early as 6 December 2022 from a mangabey called Bako—the mother of the infant that first drew researchers’ attention.
Three pieces of evidence then led the researchers to conclude that Bako, who survived the infection without developing symptoms, had caught the virus after eating a fire-footed rope squirrel. The first was that they observed mangabeys hunt and eat F. pyrropus. The second was that they found an F. pyrropus carcass teeming with a virus identical to the one infecting the mangabeys one month before Bako’s faecal samples turned positive. And finally, they identified F. pyrropus DNA in the earliest positive faecal sample from Bako.
“It’s unbelievable how well things fit together,” Leendertz says.
Although scientists had occasionally found monkeypox virus in squirrels, this was the first evidence for cross-species transmission.
To prove that a species is a reservoir host, Djuicy says, there must be evidence that most of the animals can maintain and shed the virus without getting sick. But there is not yet proof of this for F. pyrropus, she adds.
Other rodent species, such as pouched rats (Cricetomys spp.), have been implicated in monkeypox transmission, too, Mbala says. So fire-footed rope squirrels might be part of a network of animal species responsible for sustaining the virus.
Leendertz says his team will next investigate both ongoing and past monkeypox infections in small mammals, including squirrels, in the national forest. They will study how these animals use the forest habitat and interact with humans.
Consuming wild animals is popular in many parts of Africa for complex reasons, including tradition, subsistence, civil unrest and commercial demand, Leendertz says. Those factors, he adds, along with waning immunity in people after vaccination against smallpox stopped in 1980, might be driving the acceleration of mpox emergence in humans in the past two decades.
This article is reproduced with permission and was first published on April 8, 2025.
Jane Qiu is an award-winning independent science writer in Beijing. She has won a Knight Science Journalism Fellowship, as well as awards from prestigious groups such as the American Association for the Advancement of Science and the Association of British Science Writers.
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Source: www.scientificamerican.com