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SLIGHT MOLECULAR TWEAK, AND FLU VIRUS BECOMES A KILLER
06 September 2001 - University of Wisconsin-Madison

By incorporating the slightest change in the arrangement of its molecules, the virus responsible for a brief but frightening influenza outbreak in Hong Kong several years ago can quickly morph from a relatively benign virus to a killer.

The discovery of the molecular basis for the extreme virulence of the virus known to scientists as Hong Kong H5N1 influenza A, was reported today, Sept. 7, in Science magazine, the nation's leading scientific journal. Using mice, a team of scientists from the University of Wisconsin-Madison showed that only minor molecular changes are required to turn a virus that, in its benign form, causes only minor respiratory illness to a potentially deadly virus that infects much of the body, including the heart and brain.

"Only a few changes make non-pathogenic viruses highly pathogenic," says Yoshihiro Kawaoka, a virologist at UW-Madison and corresponding author of the Science paper.

The virus responsible for the 1997 Hong Kong outbreak, which infected at least 18 people and killed six of those with known infections, is an avian flu virus and was transmitted to humans, most likely, in one or more of the bustling live poultry markets that dot Hong Kong.

Animals such as fowl and pigs are known reservoirs of influenza virus, and it is known that the major flu outbreaks, including the Asian and Hong Kong flu pandemics, occur when viruses leap from an animal host to humans.

At the time of the outbreak, a surveillance team found the virus in chickens, ducks, quail and geese. To stem the spread of the virus, the Hong Kong government ordered the destruction of all birds in Hong Kong's live poultry markets and an estimated 1.4 million birds were slaughtered.

Kawaoka says two unique things about the 1997 Hong Kong outbreak raise concern among virologists and public health officials: One was direct transmission of the virus from birds to humans, raising the specter that influenza outbreaks in humans could stem more often from live poultry markets which are common in many countries, including the United States in New York and Florida.

The other unique aspect of the outbreak was the extreme virulence of one of two forms of the virus. All human H5N1 isolates proved deadly when chickens were exposed to the virus: "It kills chickens within 36 hours," says Kawaoka, whose research was supported by the National Institute of Allergy and Infectious Diseases. "It causes systemic infection and the virus even grows in the brain."

Whether or not the pathogenic form of the virus was responsible for the six human deaths attributed to the virus is an open question, Kawaoka says. But experiments in mice show that the virulent form of the virus, isolated from human patients who contracted it, can be as deadly to mammals as it is to birds.

As few as two particles of the virus isolated from human victims of the 1997 outbreak were enough to kill a mouse, Kawaoka says. The less virulent form of the virus, isolated from patients who suffered only mild respiratory symptoms, was also less pathogenic in mice.

Flu viruses, like all viruses, depend on the cellular machinery of their hosts to reproduce and spread. The complicated surface landscape of a virus is the key it uses to attach to host cells and co-opt their reproductive capabilities.

The surface proteins of flu viruses change readily to escape detection by the human immune system. The new research suggests, however, that such changes may also trigger changes that can transform the virus from merely sickening to deadly.

In the case of H5N1 influenza A, it seems that only a minor change in the virus was enough to permit it to spread beyond the respiratory system to other vital organs, including the heart and the brain.

Intriguingly, the host seems to play a role in turning the virus into a killer, Kawaoka says. He says a viral protein known as PB2 exhibits a malleability that, apparently, is the key to unleashing the virus and permitting it to spread beyond the respiratory system. The resulting is a single amino acid change that "makes the virus quite different and virulent."

Although the 1997 outbreak of H5N1 influenza A did not appear to spread readily among humans, the persistence of the virus in chickens and other fowl is troubling. In May of this year, a similar H5N1 virus was again detected in chickens from Hong Kong poultry markets and another 1.4 million birds were slaughtered. In June, the poultry markets were reopened and by July, Kawaoka says, the virus was back.

The lead author of the paper appearing in today's Science is Masato Hatta of UW-Madison. Co-authors include Peng Gao and Peter Halfmann, also of UW-Madison.

http://www.wisc.edu

About: University of Wisconsin-Madison
In achievement and prestige, the University of Wisconsin-Madison has long been recognized as one of America’s great universities. A public, land-grant institution, UW-Madison offers a complete spectrum of liberal arts studies, professional programs and student activities. Many of its programs are hailed as world leaders in instruction, research and public service.

The university traces its roots to a clause in the Wisconsin Constitution, which decreed that the state should have a prominent public university. In 1848, Nelson Dewey, Wisconsin’s first governor, signed the act that formally created the university, and its first class, with 17 students, met in a Madison school building on February 5, 1849.

From those humble beginnings, the university has grown into a large, diverse community, with about 40,000 students enrolled each year. These students represent every state in the nation, as well as countries from around the globe, making for a truly international population.

UW-Madison is the oldest and largest campus in the University of Wisconsin System, a statewide network of 13 comprehensive universities, 13 freshman-sophomore transfer colleges and an extension service. One of two doctorate-granting universities in the system, UW-Madison’s specific mission is to provide "a learning environment in which faculty, staff and students can discover, examine critically, preserve and transmit the knowledge, wisdom and values that will help insure the survival of this and future generations and improve the quality of life for all."

The university achieves these ends through innovative programs of research, teaching and public service. Throughout its history, UW-Madison has sought to bring the power of learning into the daily lives of its students through innovations such as residential learning communities and service-learning opportunities. Students also participate freely in research, which has led to life-improving inventions from more fuel-efficient engines to cutting-edge genetic therapies.

Students, faculty and staff are motivated by a tradition known as the "Wisconsin Idea," described by UW President Charles Van Hise in 1904 as the compelling need to carry "the beneficent influence of the university ... to every home in the state." The Wisconsin Idea permeates the university’s work and helps forge close working relationships among university faculty and students and the state’s industries and government.


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