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Bats: An unexpected virus reservoir

April 24, 2012
Universität Bonn
Researchers have discovered the probable cause of not just one, but several infectious agents at the same time. Paramyxoviruses originate from ubiquitous bats, from where the pathogens have spread to humans and other mammals. In total, this unique study tested 9,278 animals for viruses, among them 86 species of bats and 33 rodent species, leading to the discovery of an enormous number of new virus species. This could make eradicating many dangerous diseases significantly more difficult than had been thought. For bats provide a reservoir from which viruses could come back after vaccination campaigns.

Flat nose bat in flight in Ghana.
Credit: Copyright Florian Gloza-Rausch/Uni Bonn/Noctalis Bad Segeberg

Where do viruses dangerous to humans come from, and how have they evolved? Scientists working with Prof. Dr. Christian Drosten, Head of the In¬stitute for Virology at the Universitätsklinikum Bonn, have made significant progress in answering this question. "We already knew from prior studies that bats and rodents play a role as carriers of paramyxoviruses," said Prof. Drosten. The many varied members of this large virus family cause, e.g., measles, mumps, pneumonias and colds. The highly dangerous Hendra and Nipah viruses cause types of encephalitis that result in death for one out of two patients. Paramyxoviruses also play a role in veterinary medicine, causing e.g., canine distemper or rinderpest.

Researchers double the number of known paramyxovirus species

With support from numerous scientific institutes in Germany and around the world, they tested a total of 9,278 animals from Europe, South America and Asia, including 86 bat and 33 rodent species. "These animals live in very large social communities with millions of individuals in some cases," reported the Bonn virologist. "Their close contact promotes mutual infection and provides for great variety in circulating viruses." Using molecular biology methods, the scientists identified which virus species are rampant in bats and rodents. According to their own estimates, they discovered more than 60 new paramyxovirus species. "That is about as many as the number that was already known," said Drosten.

Bats are the original paramyxovirus hosts

Using computational biology methods, the scientists calculated a common evolutionary tree for the new and the known viruses. They then deduced, using mathematical methods, in which host animals the viruses have most likely taken up residence during their evolutionary history. "Our analysis shows that almost all of the forebears of today's paramyxoviruses have existed in bats," explained Prof. Drosten. "Just as with influenza, where we are keeping an eye on birds as a source of new pandemic viruses, we will now have to study the bat viruses to see if they are a danger to humans." So, the current data might play a useful role in early detection and prevention of epidemics -- a major new goal in virus research.

Mumps viruses have jumped to humans

The findings also included that the Hendra and Nipah viruses that cause encephalitis in Asia and Australia really came from Africa. "This results in an urgent need to conduct medical studies in Africa," said the Bonn virologist, adding that many disease cases on this continent remain unexplained and might possibly have been caused by such new viruses. In one case, the scientists have already found proof that bat viruses transfer directly to humans. "Our data show that the human mumps virus comes directly from bats -- and can be found there to this day," reported Prof. Drosten.

Dangerous viruses cannot be eradicated anytime soon

These results indicate that it may not be as easy to eradicate dangerous viruses as had been assumed. For eliminating an infectious agent permanently from the population by means of vaccination requires that there are no animal hosts from which a new infection might come. "In bats, we assume that there is a vast reservoir of such agents," said Drosten. "If the vaccination campaigns are stopped once a virus has been eradicated, this might present a potential risk -- maybe we will have to rethink." This is why Drosten advocates taking into account ecological data when planning vaccination campaigns. Eradicating bats or other wild animals would be neither possible nor sensible. "Bats and other small wild mammals are of immeasurable value for our planet's ecosystems," Drosten summarized his and his colleagues' unanimous opinion.

Story Source:

The above post is reprinted from materials provided by Universität Bonn. Note: Materials may be edited for content and length.

Journal Reference:

  1. Jan Felix Drexler, Victor Max Corman, Marcel Alexander Müller, Gael Darren Maganga, Peter Vallo, Tabea Binger, Florian Gloza-Rausch, Andrea Rasche, Stoian Yordanov, Antje Seebens, Samuel Oppong, Yaw Adu Sarkodie, Célestin Pongombo, Alexander N. Lukashev, Jonas Schmidt-Chanasit, Andreas Stöcker, Aroldo José Borges Carneiro, Stephanie Erbar, Andrea Maisner, Florian Fronhoffs, Reinhard Buettner, Elisabeth K.V. Kalko, Thomas Kruppa, Carlos Roberto Franke, René Kallies, Emmanuel R.N. Yandoko, Georg Herrler, Chantal Reusken, Alexandre Hassanin, Detlev H. Krüger, Sonja Matthee, Rainer G. Ulrich, Eric M. Leroy, Christian Drosten. Bats host major mammalian paramyxoviruses. Nature Communications, 2012; 3: 796 DOI: 10.1038/ncomms1796

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Universität Bonn. "Bats: An unexpected virus reservoir." ScienceDaily. ScienceDaily, 24 April 2012. <>.
Universität Bonn. (2012, April 24). Bats: An unexpected virus reservoir. ScienceDaily. Retrieved November 30, 2015 from
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