YOUR VIRAL INFECTION HISTORY IN A SINGLE DROP OF BLOOD
New technology
developed by Howard Hughes Medical Institute (HHMI) researchers makes it
possible to test for current and past infections with any known human virus by
analyzing a single drop of a person's blood. The method, called VirScan, is an
efficient alternative to existing diagnostics that test for specific viruses
one at a time.
With VirScan,
scientists can run a single test to determine which viruses have infected an
individual, rather than limiting their analysis to particular viruses. That
unbiased approach could uncover unexpected factors affecting individual
patients' health, and also expands opportunities to analyze and compare viral
infections in large populations. The comprehensive analysis can be performed
for about $25 per blood sample.
Stephen Elledge, an
HHMI investigator at Brigham and Women's Hospital, led the development of
VirScan. "We've developed a screening methodology to basically look back
in time in people's [blood] sera and see what viruses they have
experienced," he says. "Instead of testing for one individual virus
at a time, which is labor intensive, we can assay all of these at once. It's
one-stop shopping."
Elledge and his
colleagues have already used VirScan to screen the blood of 569 people in the
United States, South Africa, Thailand, and Peru. The scientists described the
new technology and reported their findings in the June 5, 2015, issue of the
journal Science.
VirScan works by
screening the blood for antibodies against any of the 206 species of viruses
known to infect humans. The immune system ramps up production of
pathogen-specific antibodies when it encounters a virus for the first time, and
it can continue to produce those antibodies for years or decades after it
clears an infection. That means VirScan not only identifies viral infections
that the immune system is actively fighting, but also provides a history of an
individual's past infections.
To develop the new
test, Elledge and his colleagues synthesized more than 93,000 short pieces of
DNA encoding different segments of viral proteins. They introduced those pieces
of DNA into bacteria-infecting viruses called bacteriophage. Each bacteriophage
manufactured one of the protein segments -- known as a peptide -- and displayed
the peptide on its surface. As a group, the bacteriophage displayed all of the
protein sequences found in the more than 1,000 known strains of human viruses.
Antibodies in the
blood find their viral targets by recognizing unique features known as epitopes
that are embedded in proteins on the virus surface. To perform the VirScan
analysis, all of the peptide-displaying bacteriophage are allowed to mingle
with a blood sample. Antiviral antibodies in the blood find and bind to their
target epitopes within the displayed peptides. The scientists then retrieve the
antibodies and wash away everything except for the few bacteriophage that cling
to them. By sequencing the DNA of those bacteriophage, they can identify which
viral protein pieces were grabbed onto by antibodies in the blood sample. That
tells the scientists which viruses a person's immune system has previously
encountered, either through infection or through vaccination. Elledge estimates
it would take about 2-3 days to process 100 samples, assuming sequencing is
working optimally. He is optimistic the speed of the assay will increase with
further development.
To test the method,
the team used it to analyze blood samples from patients known to be infected
with particular viruses, including HIV and hepatitis C. "It turns out that
it works really well," Elledge says. "We were in the sensitivity
range of 95 to 100 percent for those, and the specificity was good -- we didn't
falsely identify people who were negative. That gave us confidence that we
could detect other viruses, and when we did see them we would know they were
real."
Elledge and his
colleagues used VirScan to analyze the antibodies in 569 people from four
countries, examining about 100 million potential antibody/epitope interactions.
They found that on average, each person had antibodies to ten different species
of viruses. As expected, antibodies against certain viruses were common among
adults but not in children, suggesting that children had not yet been exposed
to those viruses. Individuals residing South Africa, Peru, and Thailand, tended
to have antibodies against more viruses than people in the United States. The
researchers also found that people infected with HIV had antibodies against
many more viruses than did people without HIV.
Elledge says the team
was surprised to find that antibody responses against specific viruses were
surprisingly similar between individuals, with different people's antibodies
recognizing identical amino acids in the viral peptides. "In this paper
alone we identified more antibody/peptide interactions to viral proteins than
had been identified in the previous history of all viral exploration," he
says. The surprising reproducibility of those interactions allowed the team to
refine their analysis and improve the sensitivity of VirScan, and Elledge says
the method will continue to improve as his team analyzes more samples. Their
findings on viral epitopes may also have important implications for vaccine
design.
Elledge says the
approach his team has developed is not limited to antiviral antibodies. His own
lab is also using it to look for antibodies that attack a body's own tissue in
certain autoimmune diseases that are associated with cancer. A similar approach
could also be used to screen for antibodies against other types of pathogens.
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