New Paper-Based Test can Now Detect Zika Virus

Zika outbreak, that began in Brazil in April 2015 has been linked to a birth defect known as microcephaly. Many infected people experience no symptoms, and when symptoms do appear they are very similar to those of related viruses such as dengue and chikungunya. A new paper-based test developed at MIT and other institutions can diagnose Zika virus infection within a few hours. The test, which distinguishes Zika from the very similar dengue virus, can be stored at room temperature and read with a simple electronic reader, making it potentially practical for widespread use.

"We have a system that could be widely distributed and used in the field with low cost and very few resources," says James Collins, the Termeer Professor of Medical Engineering and Science in MIT's Department of Biological Engineering and Institute for Medical Engineering and Science (IMES) and the leader of the research team.

Currently, patients are diagnosed by testing whether they have antibodies against Zika in their bloodstream, or by looking for pieces of the viral genome in a patient's blood sample, using a test known as polymerase chain reaction (PCR). However, these tests can take days or weeks to yield results, and the antibody test cannot discriminate accurately between Zika and dengue.

"One of the key problems in the field is being able to distinguish what these patients have in areas where these viruses are co-circulating," says Lee Gehrke, the Hermann L.F. von Helmholtz Professor in IMES and an author of the paper.

Collins, Gehrke, and colleagues from Harvard University's Wyss Institute for Biologically Inspired Engineering and other institutions described the new device in the May 6 online edition of Cell. The paper's lead authors are Melissa Takahashi, an IMES postdoc; Dana Braff, an MIT graduate student; Keith Pardee, an assistant professor at the University of Toronto and former Wyss Institute research scientist; Alexander Green, an assistant professor at Arizona State University and former Wyss Institute postdoc; and Guillaume Lambert, a visiting scholar at the Wyss Institute.

Paper-based detection

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The new device is based on technology that Collins and colleagues previously developed to detect the Ebola virus. In October 2014, the researchers demonstrated that they could create synthetic gene networks and embed them on small discs of paper. These gene networks can be programmed to detect a particular genetic sequence, which causes the paper to change color.

Upon learning about the Zika outbreak, the researchers decided to try adapting their device to diagnose Zika, which has spread to other parts of South and North America since the outbreak began in Brazil. "In a small number of weeks, we developed and validated a relatively rapid, inexpensive Zika diagnostic platform," says Collins, who is also a member of the Wyss Institute.

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Collins and his colleagues developed sensors, embedded in the paper discs, that can detect 24 different RNA sequences found in the Zika viral genome, which, like that of many viruses, is composed of RNA instead of DNA. When the target RNA sequence is present, it initiates a series of interactions that turns the paper from yellow to purple.

This color change can be seen with the naked eye, but the researchers also developed an electronic reader that makes it easier to quantify the change, especially in cases where the sensor is detecting more than one RNA sequence.

All of the cellular components necessary for this process -- including proteins, nucleic acids, and ribosomes -- can be extracted from living cells and freeze-dried onto paper. These paper discs can be stored at room temperature, making it easy to ship them to any location. Once rehydrated, all of the components function just as they would inside a living cell.

The researchers also incorporated a step that boosts the amount of viral RNA in the blood sample before exposing it to the sensor, using a system called NASBA (nucleic acid sequence based amplification). This amplification step, which takes one to two hours, increases the test's sensitivity 1 million-fold.

Distinguishing viruses

The team tested the new device using synthesized RNA sequences corresponding to the Zika genome, which were then added to human blood serum. The researchers showed that the device could detect very low viral RNA concentrations in those samples and could also distinguish Zika from dengue.

The researchers then tested the device with samples taken from monkeys infected with the Zika virus. (Samples from human patients affected by the current Zika outbreak are very difficult to obtain.) They found that in these samples, the device could detect viral RNA concentrations as low as 2 or 3 parts per quadrillion.

The researchers envision that this approach could also be adapted to other viruses that may emerge in the future. Collins now hopes to team up with other scientists to further develop the technology for diagnosing Zika. "Here we've done a nice proof-of-principle demonstration, but more work and additional testing would be needed to ensure safety and efficacy before actual deployment," he says. "We're not far off."

Source-Eurekalert