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1、NEWS 952 VOLUME 19 | NUMBER 8 | AUGUST 2013 NATURE MEDICINE Lack of small animal model hinders MERS coronavirus research When reports of a new coronavirus trickled out of Saudi Arabia last year, scientists leveraged a decade of experience studying SARS (severe acquired respiratory syndrome) to quick
2、ly find ways to stop infections from the deadly pathogen. But research efforts are stalled because of one key difference between the two coronaviruses: unlike SARS, which readily infects a menagerie of animals, the virus responsible for so-called Middle East respiratory syndrome, or MERS, doesnt see
3、m to cause disease in small lab animals. Fortunately for MERS researchers laboring to develop an animal model before the viral outbreak gets out of hand, time seems to be on their side. The MERS coronavirus doesnt seem to be spreading between people fast enough to warrant fears of a pandemic, accord
4、ing to an analysis published 5 July in The Lancet1. Still, with more than half of the 80-plus people known to be afflicted with MERS dying at the hands of the virus, public health officials remain on high alert. Last month, the World Health Organization (WHO) established new clinical guidelines for
5、reporting cases of MERS and appointed a committee of 15 experts to review what scientists know about the virus and establish a plan in case a pandemic begins. The committee convened its first two meetings on 9 and 17 July and plans to meet again in September, or sooner if needed. “Epidemiology is cr
6、ucial now,” says Bart Haagmans, a virologist at the Erasmus Medical Center in Rotterdam, the Netherlands, who is not part of the WHO panel. “If you can pinpoint where the virus is coming from, you can really get a grip on the problem.” As the epidemiological data trickle in, some scientists are sear
7、ching for the virus and clues about its characterin nonhuman animals. By sequencing the viruss genome, Haagmans and his colleagues showed last year that the MERS pathogen is closely related to coronaviruses carried by two bat species2. Bats are natural reservoirs of many deadly viruses, including SA
8、RS-like coronaviruses. However, researchers dont yet have direct evidence for a bat source of transmission for MERS. In April, an international team of virus hunters traveled to Saudi Arabia, where more than 80% of the human infections to date have occurred, to take blood samples from bats, as well
9、as camels, sheep and goats. Their plan is to look for the virus or antibodies that would indicate previous exposure to the virus in these species. At press time, an analysis of those samples which is being conducted in Ian Lipkins laboratory at the Center for Infection and Immunity in the Mailman Sc
10、hool of Public Health at Columbia University in New Yorkwas still pending. Total im-MERS-ion In the meantime, other researchers are working to establish laboratory models with which to study the how the virus takes its toll on the body and to test the efficacy of potential therapeutics. Earlier this
11、 year, a team led by Haagmans identified dipeptidyl peptidase 4 (DPP4; also known as CD26) as the surface receptor employed by the MERS coronavirus to gain entry into host cells, including human ones3. Using crystallization techniques, George Gao and his colleagues at the Chinese Academy of Sciences
12、 in Beijing on 7 July described the molecular basis of the binding between the virus and DPP4 (ref. 4). And also last month, a group led by Shibo Jiang published a study demonstrating the immunogenic potency of a 286amino acid stretch on the MERS coronaviruss binding domain5a first step toward an ev
13、entual MERS vaccine. “Our previous work with SARS helped us find a critical target quickly,” says Jiang, head of the Laboratory of Viral Immunology at the New York Blood Center. “The next step is to optimize the immune response.” But evaluating such a vaccine will require an animal model. And even t
14、hough DDP4 has been identified in the lung cells of many rodents, including Syrian hamsters, researchers at the Laboratory of Virology of the US National Institute of Allergy and Infectious Diseases (NIAID) in Hamilton, Montana, could not get the MERS coronavirus to replicate in this common infectio
15、n model6. The virus successfully causes illness in rhesus macaques, though. The same NIAID team, led by Heinz Feldmann, showed in April that pneumonia-like symptoms develop in macaques infected with MERS within 24 hours of infection, resulting in a respiratory disease similar to, but less severe tha
16、n, that found in people with MERS7. The macaque system is not as practical and widely applicable as a small- animal model, and not that many research groups are working with it. But the NIAID team, for one, is now moving ahead with drug tests in the monkeys. Specifically, the researchers are evaluating whether two antiviral compoundsalpha-interferon and ribavirin, both of which are used to treat hepatitis and other infectionscan clear MERS coronavirus infections. Both drugs inhibit viral repli
