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Discovery may help defang viruses
August 29, 2007Researchers may be able to tinker with a single amino acid of an enzyme that helps viruses multiply to render them harmless, according to molecular biologists who say the discovery could pave the way for a fast and cheap method of making vaccines.
"We have successfully tested this technique with poliovirus," said Craig Cameron, the Paul Berg professor of biochemistry and molecular biology at Penn State. "And we think it is applicable to most other viruses." Viruses have a simple mission; infect a cell, make more viruses, and then break out of the cell to infect more cells. This calls for fast and efficient multiplication. Viruses do this with the help of an enzyme called polymerase, whose main job is to assist in making more copies of the virus.
Once a virus infects a cell, there is a race against the clock between the virus, which is trying to multiply quickly, and the immune system trying to control the spread. A virus can cause disease and death if it can spread more rapidly than the immune system can neutralize it.
But if the body has been exposed to a vaccine - weakened form of the virus in this case - the body can respond more rapidly when it is exposed to the virulent strain. The key to developing vaccines is finding the one strain - mutation - that will prime the immune system without causing disease.
The Penn State researchers may have done just that. Cameron and his colleagues, Jamie Arnold and Christian Castro, both research associates, have identified a key amino acid in the polymerase of poliovirus that controls the speed and accuracy with which the virus is able to multiply.
By replacing this key residue with different amino acids, the researchers were able to generate mutants of the virus that are essentially harmless.
"We found that very subtle changes in the chemistry at this location of the polymerase has dramatic effects on weakening the virus," said Cameron, who has a provisional patent on the technique.
When lab mice are infected with these mutant strains of the virus, it takes a lot more of the virus to sicken, or kill the animals. Cameron says tests suggest that some viral strains with specific mutation patterns lead to a form of the virus that cannot sustain itself.
"By altering a single lysine residue, you not only affect the virus' replication, but also the accuracy with which it is copied," he said. "A virus' replication speed and accuracy is optimized; there is a delicate balance. We have defined the optima for poliovirus but where that balance is going to be for different viruses, we do not yet know."
Since all viruses have a similar mechanism regulating their replication, Cameron says the discovery may represent a universal mechanism of weakening other viruses causing diseases such as influenza, SARS, Dengue fever and the West Nile Virus for developing vaccines.
"All standard approaches for vaccine development take years," said Cameron. "It is all a random trial and error process to get an attenuated - weakened - virus that may be treated as a potential vaccine candidate. There is no direct method."
Positive strand RNA viruses - those with only one gene - such as SARS coronavirus, and hepatitis C virus compound the problem. "The gene makes a protein that gets processed into a lot of different functions," said Cameron. "There is no gene to delete." But these viruses do have an amino acid similar to the residue identified in poliovirus, which can be replaced to produce weak variants. These new strains are quickly neutralized by the immune system, providing protection against the more virulent strains.
The Penn State Scientist says his findings could help avoid the long time it takes to create vaccines, and might help mount a more effective response against ever-changing viruses such as influenza, as well as emerging and re-emerging viruses such as SARS coronavirus, West Nile Virus and Dengue virus.
He added that the technique of quickly creating weak viral strains for use as vaccines could also protect against viruses such as Ebola and smallpox, which might be used as biological weapons.
Penn State
But if the body has been exposed to a vaccine - weakened form of the virus in this case - the body can respond more rapidly when it is exposed to the virulent strain. The key to developing vaccines is finding the one strain - mutation - that will prime the immune system without causing disease.
The Penn State researchers may have done just that. Cameron and his colleagues, Jamie Arnold and Christian Castro, both research associates, have identified a key amino acid in the polymerase of poliovirus that controls the speed and accuracy with which the virus is able to multiply.
By replacing this key residue with different amino acids, the researchers were able to generate mutants of the virus that are essentially harmless.
"We found that very subtle changes in the chemistry at this location of the polymerase has dramatic effects on weakening the virus," said Cameron, who has a provisional patent on the technique.
When lab mice are infected with these mutant strains of the virus, it takes a lot more of the virus to sicken, or kill the animals. Cameron says tests suggest that some viral strains with specific mutation patterns lead to a form of the virus that cannot sustain itself.
"By altering a single lysine residue, you not only affect the virus' replication, but also the accuracy with which it is copied," he said. "A virus' replication speed and accuracy is optimized; there is a delicate balance. We have defined the optima for poliovirus but where that balance is going to be for different viruses, we do not yet know."
Since all viruses have a similar mechanism regulating their replication, Cameron says the discovery may represent a universal mechanism of weakening other viruses causing diseases such as influenza, SARS, Dengue fever and the West Nile Virus for developing vaccines.
"All standard approaches for vaccine development take years," said Cameron. "It is all a random trial and error process to get an attenuated - weakened - virus that may be treated as a potential vaccine candidate. There is no direct method."
Positive strand RNA viruses - those with only one gene - such as SARS coronavirus, and hepatitis C virus compound the problem. "The gene makes a protein that gets processed into a lot of different functions," said Cameron. "There is no gene to delete." But these viruses do have an amino acid similar to the residue identified in poliovirus, which can be replaced to produce weak variants. These new strains are quickly neutralized by the immune system, providing protection against the more virulent strains.
The Penn State Scientist says his findings could help avoid the long time it takes to create vaccines, and might help mount a more effective response against ever-changing viruses such as influenza, as well as emerging and re-emerging viruses such as SARS coronavirus, West Nile Virus and Dengue virus.
He added that the technique of quickly creating weak viral strains for use as vaccines could also protect against viruses such as Ebola and smallpox, which might be used as biological weapons.
Penn State
Poliovirus Current Events and Poliovirus News RSSEliminating polio requires global, coordinated effort -- Health Affairs article highlights risks, rewards of eradication
Eliminating polio everywhere will require global cooperation on several fronts, including lowering the cost for poor countries to vaccinate with inactivated polio vaccine (IPV), says a leading global health researcher in the July/August Health Affairs thematic issue on global health.
Biologists spy close-up view of poliovirus linked to host cell receptor
Researchers from Purdue and Stony Brook universities have determined the precise atomic-scale structure of the poliovirus attached to key receptor molecules in human host cells and also have taken a vital snapshot of processes leading to infection.
Researchers Examine Evolution of Genes that Trigger the Body's Immune Response to Viral Infection
Virginia Commonwealth University Institute of Molecular Medicine researchers have traced the evolutionary origin of two genes that serve as primary cellular sensors of infection with RNA viruses, such as influenza, poliovirus, West Nile virus, and HIV, which may ultimately provide researchers with insight into a possible new pathway for the development of innate immunity.
Tool creates personalized catch-up immunization schedules for missed childhood vaccinations
A new downloadable software tool will help pediatricians, parents and other health care professionals determine how to adjust complex childhood immunization schedules when one or more vaccine doses aren't received at the proper time.
Number of cases of most vaccine-preventable diseases in US at all-time low
A comparison of illness and death rates for 13 vaccine-preventable diseases in the U.S., before and after use of the vaccine, indicates there have been significant decreases in the number of cases, hospitalizations and deaths for each of the diseases examined.
Combination vaccines okay for infants, study shows
A University of Rochester study brings relief to new parents who, while navigating a jam-packed childhood vaccine schedule, can expect to soothe their newborn through as many as 15 "pokes" by his or her six-month checkup.
New analysis says eradicating polio a better option than extended control of the disease
Concerns about the high perceived costs of eradicating the relatively low number of polio cases worldwide have led to recent suggestions that it is time to shift from a goal of eradication to control—abandoning eradication and allowing wild poliovirus to continue to circulate, which proponents of control believe can sustain the low number of cases.
Researchers use poliovirus to destroy neuroblastoma tumors in mice
The cause of one notorious childhood disease, poliovirus, could be used to treat the ongoing threat of another childhood disease, neuroblastoma.
Molecular Anatomy of Influenza Virus Detailed
Scientists at the National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS), part of the National Institutes of Health in Bethesda, Md., and colleagues at the University of Virginia in Charlottesville have succeeded in imaging, in unprecedented detail, the virus that causes influenza.
Science study explains polio's tenacious grip in India
New research helps explain polio's persistence in India despite massive immunization efforts and offers hope for the campaign to stamp out the virus once and for all.
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