Biologists at the Ludwig-Maximilians-University Munich have developed a method that allows tadpoles of African clawed frogs (Xenopus laevis) to ‘breathe’ by introducing green algae or cyanobacteria into their bloodstream to supply oxygen. The team’s method provides enough oxygen to effectively rescue neurons in the brains of oxygen-deprived tadpoles.
“The algae actually produced so much oxygen that they could bring the nerve cells back to life, if you will,” said Dr. Hans Straka, a researcher in the Department Biology at the Ludwig-Maximilians-University Munich.
“For many people, it sounds like science fiction, but after all, it’s just the right combination of biological schemes and biological principles.”
In nature, algae live harmoniously in sponges, corals, and anemones, providing them with oxygen and even nutrients.
Why not in vertebrates like frogs? To explore the possibility, the team injected green algae (Chlamydomonas reinhardtii) or cyanobacteria (Synechocystis sp.) into tadpole hearts of African clawed frogs.
With each heartbeat, the algae inched through blood vessels and eventually reached the brain, turning the translucent tadpole bright green.
Shining light on these tadpoles prompted both algae species to pump out oxygen to nearby cells.
After distributing algae to the brain, the researchers isolated the tadpole’s head and placed it in an oxygen bubble bath with essential nutrients that would preserve the functioning of the cells, allowing them to monitor neural activity and oxygen levels.
As the scientists depleted oxygen from the bath, the nerves ceased firing and fell silent.
However, illuminating the tadpole head restarted the neural activity within 15 to 20 min, which is about two times faster than replenishing the bath with oxygen without the algae.
The revived nerves also performed as well or even better than before oxygen depletion, showing that the team’s method was quick and efficient.
“We succeeded in showing the proof of principle experiment with this method. It was amazingly reliable and robust, and in my eyes, a beautiful approach,” Dr. Straka said.
“Working in principle doesn’t really mean that you could apply it at the end, but it’s the first step in order to initiate other studies.”
While the authors think their findings may someday lead to new therapies for conditions induced by stroke or oxygen-scarce environments, such as underwater and high altitudes, algae are far from ready to enter our blood circulation.
Their next step is to see whether the injected algae can survive inside living tadpoles and continue oxygen production without causing an immune response that wreaks havoc on the animals.
“You have to have new ideas and new concepts to explore; this is one of the ways science is driven,” Dr. Straka said.
“If you are open-minded and think it through, all of a sudden, you can see all the possibilities from one idea.”
The results were published online in the journal iScience.
Suzan Özugur et al. Green oxygen power plants in the brain rescue neuronal activity. iScience, published online October 13, 2021; doi: 10.1016/j.isci.2021.103158
Source link: https://www.sci.news/biology/algae-cyanobacteria-oxygen-brain-blood-vessels-tadpoles-10172.html