Arizona COVID-19 Genomics Union Tracks Virus Strains in State
Molecular clock analysis showed no widespread community distribution of the highly contagious coronavirus disease in Arizona until mid-February.
Initial findings reported by the Arizona COVID-19 Genomics Union suggest that following Arizona's first reported case of COVID-19 in late January, the state experienced no cases that went undetected and was COVID-free until at least 11 distinct incursions occurred between mid-February and early April.
The results are published in the scientific journal mBio.
Faculty at the Translational Genomics Research Institute – an affiliate of City of Hope – along with faculty at Northern Arizona University, the University of Arizona and Arizona State University launched the ACGU in early April with the express purpose of tracking the causative agent of COVID-19: how it evolves and how it spreads into, within and out of Arizona.
The ACGU sequenced the SARS-CoV-2 genomes in as many virus-positive patient samples in Arizona as possible, and working with Arizona's public health officials, applied the results toward statewide efforts to test and track patients, as well as provide guidance for Arizona public policy makers.
Quick action by ASU and Maricopa County public health officials, ACGU scientists agree, likely kept the first identified COVID-19 patient in Arizona — a student who had just returned from Hubei, the Chinese province where the disease originated — from igniting an outbreak, and prevented Arizona from becoming an early epicenter.
"This is a great example of how a rapid and thorough public health response can be successful in preventing the spread of this disease," said ACGU Director Paul Keim, Regents' Professor of Biological Sciences and Cowden Endowed Chair in Microbiology at NAU and executive director of NAU's Pathogen and Microbiome Institute.
"Similar steps could be taken when shaping future efforts to reopen businesses and schools, even though the virus continues to circulate and people remain susceptible," added Keim, who is also a Distinguished Professor and co-director of TGen's Pathogen and Microbiome Division.
Michael Worobey, an ACGU co-founder and the head of University of Arizona Department of Ecology and Evolutionary Biology, agrees.
"It's a combination of the patient doing the right things to isolate himself and be aware that he possibly had this disease, and public health officials doing all the right things. Stopping an incursion of COVID-19 was a victory for the state of Arizona," said Worobey, who also is a member of the UArizona BIO5 Institute.
This bought Arizona valuable time for preparedness efforts. The first reported case of community transmission occurred in Arizona in early March and descended from the Washington state outbreak that was discovered in February. More than 80% of the SARS-CoV-2 genome sequences from Arizona COVID-19 cases descended from at least 11 separate lineages that were initially circulating widely in Europe, and by travel have since dominated the outbreak throughout the U.S. None of the observed transmission clusters are epidemiologically linked to the original travel-related case in the Arizona, suggesting successful early isolation and quarantine.
The ACGU uses state-of-the-art sequencers, custom computational analysis workflows and supercomputers to determine the sequence of the virus's RNA genome, which is just under 30,000 bases long. In contrast, there are nearly 3 billion bases in the human genome, which determine traits as simple as eye and hair color, and as complex as an individual's propensity for cancer and other disease.
TGen has so far sequenced SARS-CoV-2 genomes from almost 3,000 COVID-19 positive samples for the ACGU. Additional sequencing was performed at ASU and UArizona, from among the more than 200,000 positive cases in Arizona, making it one of the most robust such efforts in the nation. ACGU receives Arizona samples collected by state, county, tribal and private health care systems.
ACGU scientists take advantage of small changes or mutations in the virus's genome, which naturally occur over time as the virus reproduces, to track the spread of the virus. By comparing mutations observed in Arizona to those present in strains circulating across the globe, they can determine when and from where the virus has been introduced to Arizona.
"On average, the SARS-CoV-2 genome accrues a new change in its genetic code every two weeks that is passed on to its descendants. These genomic signatures allow us to track where different lineages come from," said Brendan Larsen, a doctoral student in Worobey's lab and one of the lead authors of the study.
Using molecular clock analyses, which allows researchers to gather clues about the evolutionary history of the virus based on the rate of genetic variances accumulating over time, the authors found that the majority of Arizona sequences are represented by two lineages and several sub-lineages, most of which were likely introduced through domestic travel, but with some evidence for international importation.
"Through the ACGU, we are harnessing expertise in virology, genomics, evolution and bioinformatics from throughout Arizona in order to rapidly distill these genomic data into actionable insights that can complement the state's public health response," Keim said. "These results demonstrate the power of public health contact tracing and self-isolation following a positive test for stemming the tide of infections moving forward."
David Engelthaler, director of TGen North in Flagstaff, which includes the institute's infectious disease branch, said the initial ACGU findings show how each community and each state is writing its own story for what is happening in the COVID-19 pandemic.
"We need to understand all of those plot lines that have led to where we are now," said Engelthaler, another of the ACGU co-founders. "Once this disease was detected in Arizona on Jan. 26, public health immediately jumped in to make sure that all contacts were identified, samples were collected and the patient was watched very closely for the next couple of weeks to make sure there were not any more cases."
In the coming months, he said, it will be necessary to track COVID-19 outbreaks and build epidemiological walls around each case, especially for those most at risk: persons older than 65, those in long-term care facilities or prisons, and those with preexisting health problems.
"When you don't have eyes on this, when you don't have contact tracing, then it can really easily move from person to person," Engelthaler said. "It's really useful for public policy makers to be making locally informed decisions.”
"Tracking the transmission of the virus and its mutations ensures that therapeutics and vaccines being developed are on the right course," said Lim, an assistant professor at ASU's Biodesign Institute. "We now have a handle on what the SARS-CoV-2 virus in our communities looks like at the sequence level."
The researchers' study – "An Early Pandemic Analysis of SARS-CoV-2 Population Structure and Dynamics in Arizona" – was supported by The NARBHA Institute, Flinn Foundation, The Virginia G. Piper Charitable Trust, Blue Cross and Blue Shield of Arizona, the National Institutes of Health, the David and Lucile Packard Foundation, the University of Arizona College of Science and Office of Research Innovation and Impact, and the BIO5 Institute.
The authors acknowledge the critical role the Arizona Department of Health Services and multiple county and tribal health departments play in directing samples to the ACGU to be sequenced. Computational analyses were run on Northern Arizona University's Monsoon computing cluster, funded by Arizona's Technology and Research Initiative Fund. Software development efforts were funded in part by the Chan-Zuckerberg Initiative and the Alfred P. Sloan Foundation. Additional analysis effort was funded under the State of Arizona Technology and Research Initiative Fund, administered by the Arizona Board of Regents, through NAU. The Cowden Endowment for Microbiology provided funds to support salaries.
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