Largest genetic analysis of MERS coronavirus to date suggests that virus has transmitted from animals to humans more than once

September 19, 2013

Using advanced DNA analysis techniques, an international team of researchers led by Professor Ziad Memish, of the Saudi Arabian Ministry of Health, Professor Alimuddin Zumla of University College London (UCL) and UCLPartners [1], and Dr Matt Cotton & Professor Paul Kellam of the Wellcome Trust Sanger Institute, Cambridge, analysed MERS-CoV genomes obtained directly from 21 different patients with MERS from across different regions of Saudi Arabia.

Genomic sequencing of viruses allows scientists to reconstruct how, when, and where the virus has evolved. This, in turn, allows researchers to establish whether human infections have originated from a single zoonotic event (ie, where the virus passes just once from an animal to a human), with subsequent transmission between humans, or whether the virus is transmitting from animals to humans repeatedly.

The results clearly show that the circulating virus in Saudi Arabia is centred around Riyadh, with sporadic excursions to other centres, although additional virus genomes will need to be analysed to more firmly establish the locations involved.

The researchers' analysis of how quickly the virus has evolved, and how it has transmitted between locations and patients, suggests that a single transmission from animal to human is unlikely. Instead, it appears that the virus has transmitted from an animal reservoir to humans on several occasions, as well as transmitting between humans.

Diverse genetic variants of the virus have appeared in Riyadh, and this high local diversity might indicate that the virus is being transmitted from an animal reservoir which is being continuously imported from other regions. Alternatively, it may be down to the fact that Riyadh is the region's largest population centre, and therefore the largest target for human-to-human transmission of the virus.

The results also show that considerable time has passed since the viruses analysed in this study shared a common ancestor, which lends support to the idea that MERS-CoV might be being transmitted to humans by an intermediary animal host. While an ancestor of the virus has been found in bats, and signs of the virus have been found in dromedary camels, no animal reservoir for the virus has yet been definitively identified, and the authors reiterate an urgent need for further animal studies in the region to better establish where the virus is coming from.

According to Professor Memish, "So far, there has been very little information about the molecular evolution of MERS-CoV, and how this relates to virus transmission. While our research substantially adds to the existing evidence base for how, where, and when MERS-CoV is transmitting, further definition of the exposures responsible for the sporadic introductions of MERS-CoV into human populations is urgently needed to provide the necessary information to interrupt transmission and contain the virus."*

Professor Zumla, who is supported by the National Institute for Health Research University College London Hospitals Biomedical Research Centre, emphasises that "In lieu of our study's genomic findings, and the fact that the source of the MERS coronavirus has not yet been found, transmission of this virus appears to be more complicated than anticipated. The reassuring news is that two mass gatherings events, attracting over 8 million pilgrims, have occurred in Mecca, Saudi Arabia since the discovery of MERS-CoV 12 months ago - the annual Hajj in October 2012, and the recent July 2013 Ramadaan Umrah season - and yet no major outbreaks of MERS-CoV cases have been reported from these events to date. Watchful surveillance and vigilance is required despite the minimal risk of global spread."*

Writing in a linked Comment, Professor David SC Hui from The Chinese University of Hong Kong discusses the potential of molecular detection methods not only to track the evolution and spread of MERS-CoV but also to develop rapid response, molecular-level assays for MERS-CoV using reverse-transcription polymerase chain reaction (PCR)--much the same as those developed for SARS-CoV diagnosis following the major outbreaks in 2003. "Such blood RNA assays...allowed the more standardised quantitative expression of viral loads and became useful for early SARS diagnosis, with a detection rate of up to 80% during the first week of illness, when serology diagnosis of SARS was not sensitive at the early stage. These quantitative systems, if available, might be useful for the early diagnosis of MERS-CoV and can provide viral load information that might facilitate prognostic assessments of an infected individual."

[1] UCL is a member of UCLPartners, an academic health science centre, which translates medical discovery into large-scale clinical practice.

*Quotes direct from authors and cannot be found in text of Article


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