Flu Virus Migrates Globally During Off Season
Main Category: Flu / Cold / SARSAlso Included In: Infectious Diseases / Bacteria / Viruses; Genetics; Pregnancy / Obstetrics
Article Date: 24 Sep 2007 - 1:00 PDT
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The influenza A virus does not lie dormant during summer but migrates globally and mixes with other viral strains before returning to the Northern Hemisphere as a genetically different virus, according to biologists who say the finding settles a key debate on what the virus does during the summer off season when it is not infecting people.
"Nobody really knows why flu is a winter disease in the temperate regions and more continuous in the tropics," says Edward Holmes, professor of biology at Penn State. "The big question is, 'Why is flu seasonal?"
Flu infections in the Northern Hemisphere typically follow a familiar pattern. Some time before the start of the winter infection season, the virus evolves, changing enough to evade the previously primed immune system. Then, just before summer, the virus disappears, only to resurface the next fall with a completely different genetic makeup, ready to fool the immune system anew.
But little is known about what happens to the virus between two successive winters, or how and where it is able to sustain itself.
The key question, Holmes explains, is whether the virus settles into a dormant state waiting for the right cues of temperature and sunlight to reactivate, or whether it migrates to viral reservoirs in the tropics, from where it is later reintroduced.
It is thought that places in Southeast Asia, where humans and animals live in close proximity, might be the permanent melting pot where viruses continually circulate and exchange genetic information.
To test the migration theory, Holmes and Martha Nelson, graduate student at Penn State, and their colleagues at the National Institutes of Health, Lone Simonsen, Cecile Viboud, and Mark A. Miller, analyzed the influenza A virus genomes of 900 virus samples from New Zealand, Australia and New York state dating between 1998-2005.
Their findings, outlined in this month's issue of PLoS Pathogens, reveal that the genomes of 52 viruses from New York are closely related to viruses that circulate during the winter (April to October) in New Zealand and Australia. These mixed family trees of viruses from both the north and south suggest there is widespread viral traffic across the equator each season, which contributes significantly to new epidemics in both hemispheres, the researchers note.
"If the viruses had been dormant, samples from successive seasons in each region would only be closely related to other viruses of that same region," said Holmes, who is also affiliated with Penn State's Center for Infectious Disease Dynamics (CIDD). "The fact that they are, instead, interspersed clearly tells us that the viruses are seasonally migrating across both hemispheres."
However, it is still fully unclear where and when the viruses are evolving to beat the immune system. According to Nelson, the virus changes its entire genetic makeup somewhere during the summer off-season, and it likely does this in the tropics, where the virus is found year-round.
"But we cannot say for sure at this point. To test this theory, we need viral samples from the tropics," Nelson added. The authors anticipate that samples from these regions will become available in the next few years.
The researchers are also not sure why the virus seems to die out during summer and what exactly triggers its return.
"It could be anything from human migration, aspects of climate, levels of sunlight, seasonal susceptibility of people or a combination of all these and more factors. That is another big question," said Holmes, whose work is funded by the National Institutes of Health.
What is certain, the Penn State researcher noted, is that multiple viruses arrive in New York state each season. In a connected world where emerging viruses can spread globally very quickly, Holmes says that the best way to protect communities is to have an extremely good system of disease surveillance in place and to develop universal vaccines that can protect against all kinds of influenza virus.
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The Penn State Center for Infectious Disease Dynamics is at http://www.cidd.psu.edu/
Source: Amitabh Avasthi
Penn State
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Immune Response
posted by D on 27 Oct 2007 at 12:09 amCan viruses sense momentary weakness in the immune system?
We as humans strive to stay cool in the summer and warm in the winter. Who wants to be cold going from our cars to our homes to our work and vise-versa. Those of us who chose to ignore this vital "self-defence" protocall to stay warm (like not bundeling up properly when it's cold outside) are the ones who open themselves up for a viruses's attack and help spread them. (Remember the body's first order of priority is to keep it's internal temp at roughly 98 degrees, everthing else comes second. The immune system takes a back-seat while the body struggles to warm up. The first sign of teeth chattering or the shivers is what comes to mind). Possibly the viruses "sense" this weakness as a cue and make a stand to replicate and florish. And everbody gets sick from time to time, I'm not saying that this is the only way they spread but, these colder seasons seem to present many perfect opportunities they otherwise would not have. It's the perfect time to come out of hibernation or migrate and attack....when people are most suseptable to immune weakness, and they have the added benefit of incubating w/warmth, and plenty of close contact w/other hosts.
In the summer, there isn't any over-ride of the immune system to keep warm, it stays consistant. This is a good time for viruses to withdraw and gather their strength for the up-coming seasonal attacks.
One could say that in temperate climates, the virus could also withdraw
because of a constant immune response. But maybe these viruses have adapted to these conditions by lingering longer. Perhaps part of this adaptation is to linger in the temperate climates, migrate to the colder climates (with immune weaken hosts) and florish only to fade away to the temperate and start anew the following year.
It would seem that this might be the reason why viruses seem to "migrate" during the "flu season".....but I'm not a virologist nor am I a doctor or a scientist this is just something I've noticed.....maybe this is part of the explaination we're all looking for.....
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