Saturday, April 14, 2018

Frog skin secretions offer the first ray of hope in a deadly fungal epidemic




 With amphibians it is all about the skin.  Here we have a nascent recovery strategy at work.  How it can transmit across species remains to be seen.

I have made the promising conjecture that the amphibian die-off was driven by exposure to roundup.  Yet a readily transmitted fungal infection works  as well  if not much bettrer and unfortunately provides less promise of defeat. 

People movement alone can bring alien  fungal  infections simply catching a ride on boots and tires and this mobility for fungi is completely new..
.
 
Frog skin secretions offer the first ray of hope in a deadly fungal epidemic

A few amphibians in Panama are suddenly showing signs of resistance.

By Mary Beth Griggs March 29, 2018

https://www.popsci.com/frog-deadly-fungus-resistance-panama#page-4






A Pristamantis frog in Panama

Cori Richards-Zawacki

The early 2000s were a great time to study amphibians in Panama. At night, dozens of species sang out in chorus while researchers measured and photographed frog  after frog, often hiking to remote sites hours from the nearest road. Jamie Voyles and Cori Richards-Zawacki were both graduate students at the time, just at the start of their scientific careers, and Panama’s amphibians offered a plethora of research possibilities.

There were glass frogs with 

“The places where we were working had some of the most amazing amphibian diversity in the world. If you went out at night you’d see and hear dozens and dozens of different species every night, some of them amazingly beautiful,” Richards-Zawacki says.

Within a few years, everything changed. The amphibian choir grew softer, more muted, and species that had once been plentiful started vanishing.

“It wasn’t too long after the initial work in Panama when the disease appeared,” Voyles says. “We were finding dead and dying frogs in the stream. It's hard to articulate how much of a profound experience that is. It definitely changed the trajectory of our scientific careers. On the one hand it was heartbreaking, but it was also fascinating—and that’s where we all got started.”

Over the years, the researchers continued to study the frogs and the disease that was killing them, hoping to figure out what was happening to the swiftly declining populations. Then, recently, a fraction of species at the field sites started recovering, bouncing back from the edge of annihilation. Voyles, Richards-Zawacki, and their colleagues were determined to figure out why.



This became a common sight for researchers in Panama.

Jamie Voyles

Where is the change happening?

Chytridiomycosis is caused by the fungus Batrachochytrium dendrobatidis, which thrives in wet environments like the streams and forests of Panama.

Voyles, now a biologist at the University of Nevada, Reno, initially thought that the reason the populations were recovering was because the fungus had changed, weakening and becoming less lethal.

Richards-Zawacki, now at the University of Pittsburgh, explains that pathogens' short life cycles often enable them to change more quickly than their hosts, reproducing in a matter of hours or days while frogs take a year to reach maturity. By cycling through generations faster, a fungus should also be able to evolve faster.

So they started their search by testing bits of the fungus, looking for variations between modern samples and those taken at the start of the outbreak. But test after test showed that the disease hadn’t changed over time. And when they introduced the pathogen to frogs in the lab, the mortality rate was a stunning 100 percent.

The pathogen hadn’t altered its deadly nature one bit.

“I was completely wrong,” Voyles says. But those experiments told them where to look next.

“That’s what made a key difference—realizing that the frogs that were still around in Panama and still infected were doing so in spite of the fact that the pathogen was still incredibly deadly. That’s really remarkable,” Voyles says. “We figured if the pathogen hasn’t changed, there must be something about the frogs that has changed.”

How they survived

The disease is a skin infection, which is especially problematic for amphibians. Their skin is the entryway for water and electrolytes, and even the gases they need to breathe. Skin care for an amphibian is a matter of life and death.

“There's a disruption to the electrical functioning of the heart and they die from asystolic cardiac arrest,” Voyles says. It’s a kind of heart attack triggered by a chemical imbalance. The disrupted skin doesn’t allow vital components like sodium and potassium to stay in their proper proportions, so the heart stops beating.

How does a frog fight back against such fierce fungal foes? The researchers found that healthy frogs had altered their skin secretions to become more antimicrobial, and better able to fight off the fungal strain. Their study is published in this week’s Science.



This golden frog is healthy, and survived the chytridiomycosis outbreak.

Jaime Voyles

Long road to recovery

Conservation efforts to preserve the habitat of the frogs that remain in Panama are ongoing, as researchers work to keep threatened populations from the brink of extinction.

“Recovery is possible, but it's slow and it's gradual,” Voyles says. “And what that means is you need to continue to monitor, to collect samples, to do the hard work that it takes to find these amphibians and see what's going on with them.”

The skin secretions likely aren’t the only factor that has imbued some frogs with such resilience. Researchers like Voyles and Richards-Zawacki want to know more about the genetics of the host species that might have changed, and why exactly the pathogen itself hasn’t changed.

Overall, this is one of the few bright spots in what has been a harrowing epidemic for the frogs, the researchers that study them, and the people that live near them. But one bright spot doesn’t mean sunny days ahead for all frog species.

“We’re seeing pretty clear evidence that some species are showing the first signs of recovery, but it's by no means all of the species,” Richards-Zawacki says. “Many of the frogs don’t appear to be out of the woods. Whether they will later show their own signs of recovery, we hope so. But it's by no means back the way it was. This will continue to be a threat to species in Panama and other parts of the world.”

Richards-Zawacki and Voyles both emphasize the importance of continued, sustained monitoring to track this disease, and the effects on frog populations. Improvements in tracking epidemics like this, and changes in the interactions between pathogens and hosts, can help inform future disease tracking efforts—even for other plants and animals.

“Emerging infectious diseases are not something that’s going to go away. With increasing globalization, infectious disease will continue to be a threat, not just to wildlife but to humans as well,” Voyles says.

No comments:

Post a Comment