Avian flu expert Fouchier not convinced threat to people has abated – STAT – STAT

News that H5N1 avian influenza has breached another mammalian species this time dairy cows has taken the flu science community aback. Though cows previously had been seen to be susceptible to human flu viruses, and could be experimentally infected with H5 in a lab, the absence of cow involvement until now in H5s nearly 30-year history lulled scientists into thinking the species was outside the viruss remit.

Further elevating the concern this discovery has triggered is the fact that a dairy farm worker in Texas was infected with H5N1, though the unnamed individuals only symptom was conjunctivitis.

To put these developments in perspective, STAT turned to Dutch virologist Ron Fouchier, a leading expert on H5N1, for his assessment of these latest twists in the H5 saga. Fouchier, who studies avian influenza at the Erasmus Medical Center in Rotterdam, was at the center of a controversy about H5N1 in 2012, when a U.S. scientific advisory group moved to restrict publication of research he and a team at the University of Wisconsin-Madison had done separately to see what mutations would be needed for the virus to be able to spread efficiently among people, so-called gain of function research.

Fouchier takes little solace from the fact that current versions of H5N1 seem to infect people less frequently, and to cause mostly mild illness when they do. The global range of H5 viruses the sheer volume of the virus in nature and the numbers of mammals H5 has shown itself capable of sickening is unprecedented, he said, making anticipating its future path harder than ever to gauge.

A transcript of the conversation is below. It has been lightly edited for length and clarity.

(Note: A zoonosis or zoonotic event is the infection of a person with an animal virus, in this case H5N1. Reassortment is a process by which flu viruses swap genes in an infected species, giving rise to hybrid viruses that could behave differently than their parent viruses.)

Is it possible that weve seen the H5N1 evolve to become more dangerous to a bunch of other species, but less dangerous to us?

Its what Id like to think.

In the years after the first human cases of infections in Hong Kong in 1997 right up to 2015, we saw relatively large numbers of zoonotic events with H5N1, ending in 2015, with very large numbers in Egypt. There were quite large numbers of human cases, despite restricted replication of the virus around the globe.

Then, from 2014 onwards, the virus really started to spread massively with wild birds into Europe, crossing over into the U.S. two times now, also landing in Africa, spreading throughout Asia, all in wild migratory birds. Weve never seen such big outbreaks all across Europe and the Americas. And we see the number of zoonotic events decrease.

You have massive outbreaks in wild birds. It spreads over into poultry quite easily. But in humans we see lower numbers, and that to me suggests that the zoonotic risk has decreased. And I am more or less supported by that by noticing that in the Western world in England, in Russia, and in the U.S. most of the [human] cases that we have seen were not particularly severe.

After 2015, one thing that has happened is that these H5 viruses have continuously reassorted with wild bird avian influenza viruses. So what I think has happened is that these viruses are now better adapted to wild birds, but less adapted to poultry and to humans.

That increases the environmental load of virus on occasion. Theres different species, time and time again, where you see massive bursts of virus. And carnivores, they feast on [dead birds]. It could also increase the environmental virus load on grasslands where birds poop or in surface waters. And that could increase the risk even to non-carnivorous mammals like goats or cows.

That kind of gives me a feeling of reassurance.

It just provides an explanation where you wouldnt have to really take into account yet an increased zoonotic risk.

Of course, when we see this virus in a milking farm and you see incredibly high virus load in some milk cows and their milk, that is a new risk. Because Im not sure how familiar you are with the milking procedures, but theres very little that people do to prevent human contact with milk. During the milking process, theres massive generation of aerosol formation. If you have high amounts of aerosol with virus, the chances increase that you will get conjunctivitis.

Theres very little hygiene to protect the farmers that are milking. If people arent washing their hands a lot and somebodys infected with conjunctivitis, you could see how that could spread, couldnt you?

When we had an outbreak of [H7N7] bird flu in the Netherlands in 2003, we had 89 cases of human infection.

Is that when a veterinarian died?

Yes. The majority of cases then were conjunctivitis cases. There were very few respiratory illnesses, except for that one fatal case. But the cases of conjunctivitis were linked to direct contact with poultry, and not with human-to-human transmission.

There was only one investigation where two household members got conjunctivitis, and they shared a towel to wash their face. I think it is not very likely that you will see massive spread of conjunctivitis due to avian influenza. I dont think that its likely that it will spread human to human. Its more likely that it will spread from the animal source into humans.

I think you disagreed earlier when I used the word reassuring. But to me this pattern of becoming much better at infecting wild birds, and seemingly less inclined to infect people seems reassuring.

Well, let me explain why I dont think its too reassuring.

We have never seen this scale of infections in mammals, and in such diversity of mammals. We have now seen more than 40 species of mammals infected during the last outbreaks, which is unprecedented. We know that flu is unpredictable. But we also know that adaptation of virus to mammals is not a good thing.

Many of the adaptive mutations that you see occur when H5 has infected marine mammals, or foxes or martens or minks have been seen with the viruses that caused previous human pandemics. And that I find not reassuring. And with 40 species happening at the same time all over the world, sometimes with little option to intervene, that is not so reassuring to me.

What do you mean by options to intervene?

Well, if there are infections in cows, we can offer personal protective equipment to the milkers and we can offer antiviral drugs to people who start to develop symptoms or conjunctivitis. But when tens of thousands of seals wash up on your shore, what are you going to do? And how are you going to prevent onward spread?

And these are the animals that we see. What about the animals that we dont see so easily, like rats or mice? Whats happening? The large species we now know get infected easily. But the small species, we dont even know.

And so the high presence in nature, and the large number of infections I find concerning, despite the fact that we think current zoonotic risk is low. And thats because these viruses are changing. And we have no experience [of how H5 behaves] in all these species. We cant predict whats going to happen.

One of the things H5 has taught me is that its ever-changing, and just because it seems to infect people less frequently right now, that doesnt mean its always going to be that way.

Also the fact that the first human now is diagnosed with conjunctivitis is not a guarantee. Theres a small chance that if you have an infection in the eye, that you will actually get virus also in your respiratory tract. And then we know that if the virus ends up in your lower airways, you could develop pneumonia.

One case in a farmer who only develops conjunctivitis is not a reason to celebrate the fact that this virus is not virulent. Lets be careful now, and monitor the people and treat them with drugs as soon as you see that theres something more happening.

What are you working on now? What are you looking for?

I would like to know if there is indeed decreased zoonotic risk through the reassortment patterns.

How do you investigate that question? We identified reassortment patterns. And then we take one of the earlier parental viruses that didnt spread so well in wild birds and compare it to the current versions and inoculate different bird species, including ducks, or cell cultures. And you can look for all of the different variants, and how they vary in their replicative capacity in wild birds.

We can inoculate human organoid cells and see how permissive the cells are to the different variants, whether the early Asian variants that caused many zoonoses, whether they were, in fact, more prone to infect human tissue than the current viruses.

And if you see those same opposing patterns so more adaptation to wild birds, less efficient in infecting human cells that would explain the current situation compared to what weve seen before.

But of course, its important to note that were all doing our research with our hands tied behind our back because of the gain-of-function issues. We have to be careful in what we do and how we design the experiments. So we can take natural viruses and show that the old viruses were less likely to infect wild birds and more likely to infect human cells, and the current virus is the other way around. But really getting to the bottom of things is getting harder and harder.

Is there anything youve been waiting for a chance to say but I havent asked the right question to elicit it?

Well, the questions are really about whats going on with the cows. And U.S. scientists and officials are hopefully going to resolve that quickly. How does this virus enter cows?

If there is cow-to-cow transmission, how does it work? Its clear that its dairy cows, and it could be that its due to the milking instruments that do not get cleaned enough. Its human driven cow-to-cow transmission. And if thats the case, you can stop it. You can try to actually clean your machine. So Im really looking forward to in-depth investigations, epidemiological investigations of how the cows get this disease.

It could also be from a common feeding source. So what are these cows being fed? Do they eat fresh grass? Do they eat hay from a common source that has been contaminated by birds being out there? I think this is really crucial information, because this is going to lead to what are the options to stop this outbreak.

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Avian flu expert Fouchier not convinced threat to people has abated - STAT - STAT

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