Just a few mutations allow the avian H5N1 influenza virus to spread
through the air, according to a new study. Another recent report found
that 4 mutations and a genetic reassortment also enable airborne
transmission. These insights will help researchers prepare for potential
future flu pandemics.
Influenza, or flu, claims thousands of lives nationwide
each year and hospitalizes more than 200,000. Health experts are
concerned about the threat posed by the avian flu virus known as H5N1.
The virus originated in birds, but some strains are now able to infect
humans—and have caused a high rate of mortality in people who've been
infected. To date, the viruses haven't spread easily between people,
but influenza viruses constantly change, or mutate. If lethal H5N1
viruses became more easily transmissible among humans, they could cause a
worldwide flu pandemic.
A team led by Dr. Ron A. M. Fouchier of Erasmus Medical Center in Rotterdam, the Netherlands, set out to understand the mutations that would enable H5N1 to move easily between humans. Their study was funded in part by NIH's National Institute of Allergy and Infectious Diseases (NIAID).
The scientists began with an H5N1 virus isolated from a victim in Indonesia. They first introduced 3 genetic mutations previously shown to help flu viruses spread. One was in a virus protein called basic polymerase 2 (PB2). The others were in hemagglutinin (HA), a protein on the virus surface that allows it to enter and spread from cell to cell. The scientists used these viruses to infect ferrets, which are considered the best influenza animal model. After a few days, they took nasal samples and infected other ferrets with these collected viruses. They passed the viruses through a total of 10 ferrets and then tested whether ferrets in adjacent cages could become infected without direct contact.
The researchers reported in Science on June 22, 2012, that several ferrets had been infected by airborne transmission of the H5N1 viruses. All the viruses still harbored the mutations the scientists had originally introduced. The viruses also had several other mutations. Only 2 of these changes, both in HA, were consistently found in all the airborne-transmissible viruses.
None of the identified viruses were lethal to the ferrets after airborne transmission. The viruses were sensitive to the antiviral drug oseltamivir and also reacted well with antibodies from ferrets that had been vaccinated against H5N1 strains.
In another NIH-funded study, which appeared in Nature online on May 2, 2012, a different research team also reported creating an H5N1 virus that could move between ferrets by airborne transmission. That team—led by Dr. Yoshihiro Kawaoka of the University of Wisconsin, Madison, and the University of Tokyo—created the virus with 4 HA mutations and the exchange of gene segments with a 2009 pandemic H1N1 virus.
“Both of these studies provide important insight into how H5N1 could mutate into a potentially pandemic-causing virus,” says NIAID Dr. Director Anthony S. Fauci. “Their publication in full is of great benefit to the public health and far outweighs the potential risks.”
A team led by Dr. Ron A. M. Fouchier of Erasmus Medical Center in Rotterdam, the Netherlands, set out to understand the mutations that would enable H5N1 to move easily between humans. Their study was funded in part by NIH's National Institute of Allergy and Infectious Diseases (NIAID).
The scientists began with an H5N1 virus isolated from a victim in Indonesia. They first introduced 3 genetic mutations previously shown to help flu viruses spread. One was in a virus protein called basic polymerase 2 (PB2). The others were in hemagglutinin (HA), a protein on the virus surface that allows it to enter and spread from cell to cell. The scientists used these viruses to infect ferrets, which are considered the best influenza animal model. After a few days, they took nasal samples and infected other ferrets with these collected viruses. They passed the viruses through a total of 10 ferrets and then tested whether ferrets in adjacent cages could become infected without direct contact.
The researchers reported in Science on June 22, 2012, that several ferrets had been infected by airborne transmission of the H5N1 viruses. All the viruses still harbored the mutations the scientists had originally introduced. The viruses also had several other mutations. Only 2 of these changes, both in HA, were consistently found in all the airborne-transmissible viruses.
None of the identified viruses were lethal to the ferrets after airborne transmission. The viruses were sensitive to the antiviral drug oseltamivir and also reacted well with antibodies from ferrets that had been vaccinated against H5N1 strains.
In another NIH-funded study, which appeared in Nature online on May 2, 2012, a different research team also reported creating an H5N1 virus that could move between ferrets by airborne transmission. That team—led by Dr. Yoshihiro Kawaoka of the University of Wisconsin, Madison, and the University of Tokyo—created the virus with 4 HA mutations and the exchange of gene segments with a 2009 pandemic H1N1 virus.
“Both of these studies provide important insight into how H5N1 could mutate into a potentially pandemic-causing virus,” says NIAID Dr. Director Anthony S. Fauci. “Their publication in full is of great benefit to the public health and far outweighs the potential risks.”
No comments:
Post a Comment