Researchers at Washington University School of Medicine in St. Louis have sequenced the genome of enterovirus D68 sampled from patients treated at St. Louis Children’s Hospital. Nationwide, the virus has spread rapidly in recent months and caused severe respiratory illness in young children, with some patients requiring hospitalization.
“Having the DNA sequence of this virus enables additional research,” says senior author Gregory A. Storch, MD, the Ruth L. Siteman Professor of Pediatrics. “It can be used to create better diagnostic tests. It also may help us understand why this epidemic seems to be producing severe and unusual disease, and why it’s spreading more extensively than in the past.”
The work appears Oct. 28 in Emerging Infectious Diseases. The investigators published the DNA sequences in GenBank, an open-access database maintained by the National Institutes of Health (NIH).
The new sequencing data, produced by The Genome Institute at Washington University, includes one complete genome sequence and eight partial sequences taken from patient samples. Further, scientists at the Centers for Disease Control and Prevention (CDC) contributed to GenBank seven complete or partial sequences of enterovirus D68 sampled in the Midwest.
Storch said routine laboratory tests can’t identify specific enterovirus strains. Most hospitals and clinics only can perform tests to determine if a patient has a virus that fits broadly into the enterovirus/rhinovirus category. In the new study, Storch and his colleagues analyzed 14 patient samples testing positive for enterovirus/rhinovirus. Of those, nine were identified as enterovirus D68 using specialized laboratory techniques developed at Washington University and St. Louis Children’s Hospital. The remaining five samples were other respiratory viruses.
While many children may contract enterovirus D68 and never know it because symptoms are mild, others may require hospitalization to support their breathing. Children with a history of breathing disorders such as asthma are at higher risk of severe disease.
In this study, seven of the nine patients with the D68 strain had severe disease that required admission to the pediatric intensive care unit. The remaining two had moderate symptoms resulting in general hospital admission. Of the five patients with other viruses, three were classified with severe disease. The only two patients discharged home with mild disease did not have the D68 strain.
“There is currently no specific treatment and no vaccine for this virus,” says Storch, who treats patients at St. Louis Children’s Hospital. “But having the DNA sequence available helps work toward both of those goals.”
The data also allow comparisons between strains circulating in different parts of the country.
“The CDC has published some additional genomes from Missouri, Illinois and Kentucky,” says first author Kristine M. Wylie, PhD, research instructor in pediatrics. “The Missouri genomes, including ours, are all very similar, but the Illinois and Kentucky genomes are different from the Missouri types, suggesting there are some distinct strains circulating in the U.S. right now.”
Wylie also pointed out the importance of continuing to characterize the genetic features of this virus and monitor the health of patients with the D68 strain.
“Until recently, this virus has been pretty rare,” she says. “It would be helpful to have more data about the virus and the patients so that we can start to associate the genetic features of the virus with the severity of the disease.”
This work was supported by the National Institutes of Health (NIH) (R01 AI097213) and the Alan A. and Edith L. Wolff Distinguished Professorship at Washington University School of Medicine in St. Louis.
Reference: Wylie KM, Wylie TN, Orvedahl A, Buller RS, Herter BN, Magrini V, Wilson RK, Storch GA. Genome sequence of enterovirus D68 from St. Louis, Missouri, USA. Emerging Infectious Diseases. Oct. 28, 2014.
Source: Washington University School of Medicine