The creation of a chimeric
SARS-like virus has scientists discussing the risks of gain-of-function
research.
Nov 16, 2015
Update (March 11, 2020): On
social media and news outlets, a theory has circulated that the coronavirus at
the root of the COVID-19 outbreak originated in a research lab. Scientists say
there is no evidence that the SARS-CoV-2 virus escaped from a lab.
MERS
coronavirus
FLICKR, NIAID
Ralph Baric, an infectious-disease researcher at the
University of North Carolina at Chapel Hill, last week (November 9) published a
study on his team’s efforts to engineer a virus with the surface protein of the
SHC014 coronavirus, found in horseshoe bats in China, and the backbone of one
that causes human-like severe acute respiratory syndrome (SARS) in mice. The
hybrid virus could infect human airway cells and caused disease in mice,
according to the team’s results, which were published in Nature
Medicine.
The results demonstrate the
ability of the SHC014 surface protein to bind and infect human cells,
validating concerns that this virus—or other coronaviruses found in bat
species—may be capable of making the leap to people without first evolving in
an intermediate host, Nature reported. They also reignite a debate about
whether that information justifies the risk of such
work, known as
gain-of-function research. “If the [new] virus escaped, nobody could predict
the trajectory,” Simon Wain-Hobson, a virologist at the Pasteur Institute in
Paris, told Nature.
In October 2013, the US
government put a stop to all federal funding for gain-of-function
studies, with particular concern rising about influenza, SARS, and Middle East
respiratory syndrome (MERS). “NIH [National Institutes of Health] has funded
such studies because they help define the fundamental nature of human-pathogen
interactions, enable the assessment of the pandemic potential of emerging
infectious agents, and inform public health and preparedness efforts,” NIH
Director Francis Collins said in a statement at the time. “These studies, however, also
entail biosafety and biosecurity risks, which need to be understood better.”
Baric’s study on the
SHC014-chimeric coronavirus began before the moratorium was announced, and the
NIH allowed it to proceed during a review process, which eventually led to the
conclusion that the work did not fall under the new restrictions, Baric
told Nature. But some researchers, like Wain-Hobson, disagree with
that decision.
The debate comes down to how
informative the results are. “The only impact of this work is the creation, in
a lab, of a new, non-natural risk,” Richard Ebright, a molecular biologist and
biodefence expert at Rutgers University, told Nature.
But Baric and others argued
the study’s importance. “[The results] move this virus from a candidate
emerging pathogen to a clear and present danger,” Peter Daszak, president of
the EcoHealth Alliance, which samples viruses from animals and people in
emerging-diseases hotspots across the globe, told Nature.
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