The sixth ebolavirus, Bombali virus, in insect-eating bats in Guinea. In addition to findings reported by researchers , scientists from the University of California, Davis, detected the virus in Angolan free-tailed bats roosting inside people’s houses in Guéckedou and Kissidougou.
ٺƵ One Health Institute also first discovered the Bombali virus in Angolan and little free-tailed bats in Sierra Leone. Bombali virus is distinct from the five previously known ebolaviruses, including Zaire ebolavirus, which caused a massive outbreak in West Africa in 2013-2016. Bombali virus was also found . Research teams used similar methods to detect the virus and, collectively, results suggest Bombali virus has a wide distribution.
Scientists are trying to determine if Bombali virus has spilled over into humans or if it can cause disease in humans or animals. Results to date show that Bombali virus can infect human cells, and studies are ongoing to understand more about the risk it may pose.
The discovery of Bombali virus first in insect-eating bats in Sierra Leone, and now in Guinea, marks the first time that scientists discovered a new ebolavirus species in a host before detection in an infected human or sick animal.
Sampling and detection
The detection in Guinea was made by scientists at the ٺƵ One Health Institute working with the government of Guinea, the Viral Hemorrhagic Fever Laboratory of the University of Gamal Abdel Nasser of Conakry, and Metabiota. The work is part of the Ebola Host Project, funded by the United States Agency for International Development.
“The detection of Bombali virus first in Sierra Leone, and now also in Kenya and Guinea, suggests that ebolaviruses seem to be more widely distributed than previously thought,” said Tracey Goldstein, PREDICT Pathogen detection lead and associate director of the One Health Institute.
The PREDICT team began work in Guinea in 2016, sampling more than 4,500 animals and performing laboratory tests to look for both known and unknown ebolaviruses. Bombali virus was found in two bats belonging to the same species of insectivorous bat found roosting inside people’s houses.
Working with communities
Team members have engaged with local communities throughout the project. The government of Guinea, researchers and international partners are currently meeting with local communities to share results, convey what is known about the new virus, answer questions and address how to reduce risk of exposure and live safely with bats.
“Since the start of the project in Guinea, our team has engaged over 5,000 community members — most of them school-aged children — through training and risk reduction communication,” said Corina Monagin, PREDICT global lead for Guinea and a project scientist with the ٺƵ One Health Institute. “In light of this finding, it’s incredibly important that PREDICT continue to take the extra steps to build awareness and capacity in Guinea.”
The researchers emphasize that people should not attempt to kill or eradicate bats in response to this finding. Bats play important ecological and agricultural roles through pollination and insect pest consumption. Killing or disturbing bats in their natural habitat can actually increase the risk of virus transmission, not halt it.
“PREDICT integrated the concept of One Health in Guinea by working with the Prefectural-level Government officers of Health, Agriculture and Environment,” said Professor Alpha Oumar Camara, PREDICT/Guinea country coordinator. “PREDICT created the platform where these officers could work together and take ownership of the project themselves. This finding is an invitation for all three health sectors to continue to work together for a One Health approach to disease prevention and detection.”
Media Resources
Tracey Goldstein, ٺƵ One Health Institute, 415-902-1486, tgoldstein@ucdavis.edu
Corina Monagin, ٺƵ One Health Institute, cgmonagin@ucdavis.edu
Kat Kerlin, ٺƵ News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu