Scientists have identified a way some viruses protect themselves from the
immune system's efforts to stop infections, a finding that may make new
approaches to treating viral infections possible.
Scientists have
discovered a defense system — built into some viruses — that may be
vulnerable to treatment. The researchers studied alphaviruses similar to
the Eastern equine encephalitis virus, pictured above in red. This
virus is transmitted to humans and horses by mosquito bites.
Credit: Fred Murphy, Sylvia Whitfield/CDC
These include faking or stealing a molecular identification badge that prevents a cell from recognizing a virus.
Scientists
at Washington University School of Medicine in St. Louis and elsewhere
have found some viruses have another trick. They can block the immune
system protein that checks for the identification badge.
The
blocking structure is called a stem-loop, found at the beginning of the
virus's genetic material. This is the first time scientists have found
an immune-fighting mechanism built directly into the genetic material of
a virus. They are looking for ways to disable it and searching for
similar mechanisms that may be built into the genetic material of other
disease-causing microorganisms.
"When the stem-loop is in place
and stable, it blocks a host cell immune protein that otherwise would
bind to the virus and stop the infectious process," said senior author
Michael Diamond, MD, PhD, professor of medicine. "We found that changing
a single letter of the virus's genetic code can disable the stem-loop's
protective effects and allow the virus to be recognized by the host
immune protein. We hope to find ways to weaken the stem-loop structure
with drugs or other treatments, restoring the natural virus-fighting
capabilities of the cell and stopping or slowing some viral infections."
Most
life forms encode their genes in DNA. To use the instructions contained
in DNA, though, cells have to translate them into a related genetic
material, RNA, that can be read by a cell's protein-making machinery.
Some
viruses encode their genes directly in RNA. Examples include West Nile
virus and influenza virus, and the viruses that cause sudden acute
respiratory syndrome (SARS), yellow fever and polio.
When a virus
infects a cell, it co-opts the cell's protein-making machinery to make
viral proteins. These proteins allow the virus to replicate. Copies of
the virus break into other cells, repeat the process, and the infection
spreads.
The researchers studied alphaviruses, a group of RNA
viruses that cause fever, encephalitis and infectious arthritis. They
showed that a single-letter change in the RNA of an alphavirus
strengthened the stem-loop. When the structure was stable, a key immune
system protein called Ifit1 was blocked from binding to the viral RNA
and the infection continued unchecked. But when the stem-loop was
unstable, Ifit1 would bind to the viral RNA and disable it, stopping the
infectious process.
"Knowing about this built-in viral defense
mechanism gives us a new opportunity to improve treatment of infection,"
Diamond said. "To control emergent infections, we must continue to look
for ways that viruses have antagonized our natural defense mechanisms
and discover how to disable them."
Story Source:
The above story is based on materials provided by Washington University in St. Louis. The original article was written by Michael C. Purdy. Note: Materials may be edited for content and length.
The above story is based on materials provided by Washington University in St. Louis. The original article was written by Michael C. Purdy. Note: Materials may be edited for content and length.
Courtesy: ScienceDaily
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