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Dengue Virus Reveals Its Circular Secret
August 02, 2006The first step in the transmission of mosquito-borne viruses is no mystery: it's the pesky insect's bite that allows the virus to enter its victim's bloodstream. But for some of the most dangerous insect-borne viruses, details of what happens next have been unclear.
In a finding that could help scientists develop ways to prevent or treat certain infections, researchers led by a Howard Hughes Medical Institute (HHMI) international scholar in Argentina have identified a genetic element that the dengue virus uses to replicate, triggering the potentially fatal illness known as dengue hemorrhagic fever.
In the August 15, 2006, issue of the journal Genes & Development, published online August 1, 2006, virologist Andrea Gamarnik and colleagues at Leloir Institute Foundation in Buenos Aires, describe how a viral enzyme recognizes and amplifies the genetic material needed to assemble new dengue viruses. Their findings provide the first model for RNA replication in the family of viruses that includes West Nile, St. Louis encephalitis, and hepatitis C.
These viruses, known as flaviviruses, cause millions of cases of human illness each year, but no vaccines or antiviral drugs exist to control most of the infections. Dengue fever is endemic in many tropical and subtropical regions, causing a severe, flu-like illness that sickens more than 50 million people and kills 25,000 each year.
Once a virus enters a host cell, its top priority is to copy its genetic code so that it can make more virus. Flaviviruses are so efficient at this task that they can churn out tens of thousands of copies of their genome-which is composed of ribonucleic acid, or RNA-within hours of infecting a cell.
For dengue and other flaviviruses, the first step is to produce viral proteins, including an enzyme that can copy RNA. But the viral RNA is not the only RNA in an infected cell. So once the enzyme, called RNA-dependent RNA polymerase (RdRp), is produced, it finds itself surrounded by cellular RNA, creating a dilemma: How does RdRp distinguish viral from cellular RNA, to replicate the right molecule?
Last year, Gamarnik got her first hint when her group identified two RNA sequences located at the ends of the dengue virus genome. These short sequences interact during RNA replication, shaping the viral RNA genome into a circle. Gamarnik's team published those findings in the June 2005 issue of the Journal of Virology.
Further studies of the dengue virus life cycle revealed another piece of the virus's RNA that recruits the enzyme RdRp. Found at one tip of the genome, that sequence adopts a characteristic stem-loop structure that the scientists suspected might be important to its function.
To test whether RdRp was relying on that stem-loop shape to recognize the viral RNA, the scientists created copies of the dengue genome with minor changes that would alter its structures. The mutated RNAs were then inserted into mosquito cells or hamster cells to see if the viral RNA would be copied.
To their surprise, the scientists found that the stem-loop or SLA sequence is essential for viral replication. Changes in even one or two building blocks in this structure were enough to halt the replication process. "That told us that RdRp probably discriminates the viral RNA by recognizing SLA," Gamarnik said.
To confirm the vital link between RdRp and SLA, the researchers allowed virus particles that couldn't replicate to evolve in cells grown in lab dishes. Spontaneous mutations that occurred in the SLA often restored RdRp's activity and full viral replication capacity.
The scientists didn't expect to find that RdRp activity relies on a sequence at the far end of the genome, thousands of nucleotides away from the end where the enzyme begins copying the RNA.
The new discovery makes sense, Gamarnik said, because the circular shape adopted by the virus brings the distant ends of its genome together. "At first we were puzzled by the cyclization feature of this virus," said Gamarnik. "We now recognize that it serves a role in bringing the SLA promoter near the initiation site."
Paul Ahlquist, an HHMI investigator at the University of Wisconsin-Madison and an expert on RNA viruses, said that the Gamarnik team's findings explain prior observations from her lab and others that binding between the 5-prime and 3-prime ends of the viral genome is required for replication of dengue and several other medically important flaviviruses. "These insights suggest possible mechanisms by which flaviviruses may regulate some distinct replication steps, and might ultimately provide foundations for new antiflavivirus strategies,\\\
Howard Hughes Medical Institute
These viruses, known as flaviviruses, cause millions of cases of human illness each year, but no vaccines or antiviral drugs exist to control most of the infections. Dengue fever is endemic in many tropical and subtropical regions, causing a severe, flu-like illness that sickens more than 50 million people and kills 25,000 each year.
Once a virus enters a host cell, its top priority is to copy its genetic code so that it can make more virus. Flaviviruses are so efficient at this task that they can churn out tens of thousands of copies of their genome-which is composed of ribonucleic acid, or RNA-within hours of infecting a cell.
For dengue and other flaviviruses, the first step is to produce viral proteins, including an enzyme that can copy RNA. But the viral RNA is not the only RNA in an infected cell. So once the enzyme, called RNA-dependent RNA polymerase (RdRp), is produced, it finds itself surrounded by cellular RNA, creating a dilemma: How does RdRp distinguish viral from cellular RNA, to replicate the right molecule?
Last year, Gamarnik got her first hint when her group identified two RNA sequences located at the ends of the dengue virus genome. These short sequences interact during RNA replication, shaping the viral RNA genome into a circle. Gamarnik's team published those findings in the June 2005 issue of the Journal of Virology.
Further studies of the dengue virus life cycle revealed another piece of the virus's RNA that recruits the enzyme RdRp. Found at one tip of the genome, that sequence adopts a characteristic stem-loop structure that the scientists suspected might be important to its function.
To test whether RdRp was relying on that stem-loop shape to recognize the viral RNA, the scientists created copies of the dengue genome with minor changes that would alter its structures. The mutated RNAs were then inserted into mosquito cells or hamster cells to see if the viral RNA would be copied.
To their surprise, the scientists found that the stem-loop or SLA sequence is essential for viral replication. Changes in even one or two building blocks in this structure were enough to halt the replication process. "That told us that RdRp probably discriminates the viral RNA by recognizing SLA," Gamarnik said.
To confirm the vital link between RdRp and SLA, the researchers allowed virus particles that couldn't replicate to evolve in cells grown in lab dishes. Spontaneous mutations that occurred in the SLA often restored RdRp's activity and full viral replication capacity.
The scientists didn't expect to find that RdRp activity relies on a sequence at the far end of the genome, thousands of nucleotides away from the end where the enzyme begins copying the RNA.
The new discovery makes sense, Gamarnik said, because the circular shape adopted by the virus brings the distant ends of its genome together. "At first we were puzzled by the cyclization feature of this virus," said Gamarnik. "We now recognize that it serves a role in bringing the SLA promoter near the initiation site."
Paul Ahlquist, an HHMI investigator at the University of Wisconsin-Madison and an expert on RNA viruses, said that the Gamarnik team's findings explain prior observations from her lab and others that binding between the 5-prime and 3-prime ends of the viral genome is required for replication of dengue and several other medically important flaviviruses. "These insights suggest possible mechanisms by which flaviviruses may regulate some distinct replication steps, and might ultimately provide foundations for new antiflavivirus strategies,\\\
Howard Hughes Medical Institute
Dengue Virus Current Events and Dengue Virus News RSSPopulation movement can be critical factor in dengue's spread
Human movement is a key factor of dengue virus inflow in Rio de Janeiro, according to results from researchers based at the Oswaldo Cruz Foundation (Fiocruz) in Brazil.
Visualizing virus replication in 3 dimensions
Dengue fever is the most common infectious disease transmitted by mosquitoes - some 100 million people around the world are infected. Researchers at the Hygiene Institute at Heidelberg University Hospital were the first to present a three-dimensional model of the location in the human cell where the virus is reproduced.
New test may help to ensure that dengue vaccines do no harm
As vaccines against a virus that infects 100 million people annually reach late-stage clinical trials this year, researchers have developed a test to better predict whether a given vaccine candidate should protect patients from the infection, or in some cases, make it more dangerous, according to an article just published in the journal Clinical and Vaccine Immunology.
Smaller mosquitoes are more likey to be infected with viruses causing human diseases
An entomologist at the Illinois Natural History Survey, a division of the new UI Institute for Natural Resource Sustainability, says smaller mosquitoes are more likely to be infected with viruses that cause diseases in humans.
Findings reveal how dengue virus matures, becomes infectious
Biologists at Purdue University have determined why dengue virus particles undergo structural changes as they mature in host cells and how the changes are critical for enabling the virus to infect new host cells.
Lower transmission increases dengue deaths
A pair of researchers has answered a puzzle about why efforts to lower the transmission of dengue virus in Thailand have not resulted in decreases in the severe, life-threatening, form of the infection. In fact, it seems to have had just the opposite effect.
NIAID experts see dengue as potential threat to US public health
A disease most Americans have never heard of could soon become more prevalent if dengue, a flu-like illness that can turn deadly, continues to expand into temperate climates and increase in severity, according to a new commentary by Anthony S. Fauci, M.D., director of the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, and David M. Morens, M.D., Fauci's senior scientific advisor.
Gene expression profiling of dengue virus infection in cell lines and patients
Researchers at the Novartis Institute for Tropical Diseases and the Genome Institute of Singapore have identified new host genes associated with dengue virus infection, which may open new avenues to developing a drug to treat the disease.
New system would use rotating magnetic field to detect pathogens
Researchers at Purdue and Duke universities have developed a technique that uses a magnetic field to selectively separate tiny magnetic particles, representing a highly sensitive method for potentially diagnosing disease by testing samples from patients.
Substantial costs and underreporting of dengue fever, concerns about blood supply face US
Dengue fever, known as "breakbone fever" because of the excruciating back and joint pain that accompanies this infectious disease, is a growing public health threat for people living in tropical countries, as well as travelers to destinations such as Thailand, Brazil and Puerto Rico.
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Dengue Fever and Other Hemorrhagic Viruses (Deadly Diseases and Epidemics) by Tritha, Ph.D. Chakraborty (Author) Dengue fever is an infectious disease found around the world that is caused by four closely related, but distinct, types of viruses commonly transmitted by Aedes aegypti mosquitoes. Triggering excessive bleeding, dengue fever, dengue hemorrhagic fever, and dengue hemorrhagic shock can be fatal. "Dengue Fever and Other Hemorrhagic Viruses" explores the biology of the dengue virus and similar viruses such as Ebola, Marburg virus, and Lassa fever, as well as their symptoms, where they are commonly found, how they are transmitted, and the efforts to treat and eradicate them.Chapters include: Ins and Outs of Dengue; Hemorrhagic Fevers; Vectors - Bugs That Carry Disease; The Immune System: Our Line of Defense; and, Vaccination - Waking Up the Army in Us. |
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Dengue Virus (Current Topics in Microbiology and Immunology) by Alan L. Rothman (Editor) Scientific research on dengue has a long and rich history. The literature has been touched by famous names in medicine- Benjamin Rush, Walter Reed, and Albert Sabin, to name a very few- and has been fertile ground for medical historians . The advances made in those early investigations are all the more remarkable for the limited tools available at the time. The demonstration of a viral etiology for dengue fever, the recognition of mosquitoes as the vector for transmission to humans, and the existence of multiple viral variants (serotypes) with only partial cross-protection were all accomplished prior to the ability to culture and characterize the etiologic agent. Research on dengue in this period was typically driven by circumstances. Epidemics of dengue created public health crises,... |
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