By discovering how certain viruses use their host cells to replicate, UC
Irvine microbiologists have identified a new approach to the
development of universal treatments for viral illnesses such as
meningitis, encephalitis, hepatitis and possibly the common cold.
The UCI researchers, working with Dutch colleagues, found that
certain RNA viruses hijack a key DNA repair activity of human cells to
produce the genetic material necessary for them to multiply.
For many years, scientists have known that viruses rely on functions
provided by their host cells to increase their numbers, but the UCI
study -- led by microbiology & molecular genetics professor Bert
Semler -- is the first to identify how the RNA-containing picornaviruses
utilize a DNA repair enzyme to do so.
Study results appear in the early online edition of the Proceedings of the National Academy of Sciences the week of Aug. 20.
RNA viruses have ribonucleic acid as their genetic material (rather
than deoxyribonucleic acid, or DNA). Notable human diseases caused by
RNA viruses include SARS, influenza, hepatitis C, West Nile fever, the
common cold and poliomyelitis.
The UCI and Dutch researchers examined one group of RNA viruses,
called picornaviruses, using biochemical purification methods and
confocal microscopy to see how they co-opt the functions of a cellular
DNA repair enzyme called TDP2 to advance their replication process.
"These findings are significant because all known picornaviruses
harbor the target for this DNA repair enzyme, despite the fact that
their genetic material is made up of RNA rather than DNA. Thus,
identifying drugs or small molecules that interfere with the interaction
between the virus and TDP2 could result in a broad-spectrum treatment
for picornaviruses," said Semler, who also directs UCI's Center for
Virus Research.
By targeting a host cell function required for viral replication and
not the virus itself, he added, the primary challenge of antiviral drug
resistance may be sidestepped.
As part of their survival mechanism, RNA viruses mutate often, and
drugs intended for them usually become ineffective over time. HIV, for
example, rapidly mutates, necessitating a combination therapy employing a
number of antiviral agents.
A drug that blocks RNA viruses from hijacking DNA repair enzymes may
avoid these resistance issues. Semler's lab plans to screen mixtures of
drug candidates to find ones that inhibit this process in cells infected
by the human rhinovirus, the predominant cause of the common cold.
Richard Virgen-Slane, Janet Rozovics, Kerry Fitzgerald, Tuan Ngo,
Wayne Chou and Paul Gershon of UCI and Gerbrand van der Heden van Noort
and Dmitri Filippov of Leiden University in the Netherlands participated
in the study, which received support from the American Asthma
Foundation and a National Institutes of Health Public Health Service
grant.
Journal Reference:
- R. Virgen-Slane, J. M. Rozovics, K. D. Fitzgerald, T. Ngo, W. Chou, G. J. van der Heden van Noort, D. V. Filippov, P. D. Gershon, B. L. Semler. An RNA virus hijacks an incognito function of a DNA repair enzyme. Proceedings of the National Academy of Sciences, 2012; DOI: 10.1073/pnas.1208096109
courtesy: ScienceDaily
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