Where will the world's next Zika, West Nile or dengue virus come from?

Where will the world's next Zika, West Nile or Dengue virus come from?
This map, Fig. 4 in the study in Nature Communications, shows the geographical distribution of predicted flaviviral host richness. A) Yellow fever virus (YFV) and Zika virus (ZIKV). B) West Nile virus (WNV), St. Louis encephalitis virus (SLEV) and Usutu virus (USUV). C) Tickborne encephalitis virus (TBEV). D) Rio Bravo virus (RBV), Entebbe bat virus (ENTV) and Dakar bat virus (DBV). E) Dengue virus (DENV). F) Japanese encephalitis virus (JEV). Maps were generated using data from International Union for Conservation of Nature, BirdLife International and NatureServe. Credit: UC Davis

After collecting data and comparing it with every known mammal and bird species on Earth, scientists from the University of California, Davis, have identified wildlife species that are the most likely to host flaviviruses such as Zika, West Nile, dengue and yellow fever. Flaviviruses are known to cause major epidemics and widespread illness and death throughout the world.

The resulting "hot spot" maps show regions of the world with high diversity of potential wildlife hosts of flaviviruses—viruses mostly spread by mosquitoes and ticks. These include regions where flaviviruses have not been detected but that have wildlife species with the potential to harbor them.

The information provides scientists and with a road map for disease detection and surveillance efforts.

"Tomorrow, if there's an outbreak anywhere in the world, we now know which wildlife species are most likely to be infected in addition to humans," said lead author Pranav Pandit, a postdoctoral scholar with the UC Davis One Health Institute's EpiCenter for Disease Dynamics in the School of Veterinary Medicine.

Predicting potential hosts

The findings are reported in a recent study published in the journal Nature Communications.

Recently Zika virus emerged and continues to circulate in South America and Southeast Asia. The study predicts potential wildlife hosts in these regions with the ability to maintain Zika virus transmission in nature.

Where will the world's next Zika, West Nile or Dengue virus come from?
A red-tailed guenon in Bwindi Impenetrable Forest region in Uganda chews on a rope coated in jam, which is a noninvasive saliva sampling technique developed by UC Davis researchers. But flaviviruses are found in the blood and can be difficult to detect in wildlife. Credit: T. Smiley Evans/UC Davis

There is also rising concern that Japanese encephalitis virus will emerge and establish in Europe. The study identifies Europe as one of the regions with a high richness of potential Japanese encephalitis hosts, including many common .

For the study, researchers collected all the published data on that have tested positive for flaviviruses. They identified important traits, such as environmental and physiological features. Then they used a machine-learning model that considered the roughly 10,400 avian and 5,400 mammal species in order to identify the most likely species to host viruses.

The model predicted hundreds of previously unobserved host species. For example, it predicted 173 host species for dengue virus, of which 139 have not been previously recognized.

Helping humans and other primates

Co-leading author and UC Davis professor Christine Kreuder Johnson said the modeling work can help researchers identify which could be potential virus hosts. For example, the model indicated that primates are the main hosts of Zika and , but only nine of the 21 primate species predicted to be hosts have been detected with either of those viruses due to limited surveillance activities among these to date.

UC Davis One Health Institute scientists have established noninvasive sampling techniques for primates, such as collecting saliva from sticks and plants chewed by primates or from ropes coated with strawberry jam. But flaviviruses can be difficult to detect, especially in wildlife.

"We needed this modeling technique to help us understand the most likely hosts for these viruses in their ," said Johnson, director of the EpiCenter for Disease Dynamics. "That's important for both global health and wildlife conservation. Many of these primates are already endangered, and these diseases burden an already strained population."

More information: Pranav S. Pandit et al. Predicting wildlife reservoirs and global vulnerability to zoonotic Flaviviruses, Nature Communications (2018). DOI: 10.1038/s41467-018-07896-2

Journal information: Nature Communications
Provided by UC Davis
Citation: Where will the world's next Zika, West Nile or dengue virus come from? (2019, January 4) retrieved 14 June 2024 from https://medicalxpress.com/news/2019-01-world-zika-west-nile-dengue.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

Explore further

Machine learning tool can predict viral reservoirs in the animal kingdom


Feedback to editors