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Algae research provides insight on immune health

Study on the algae-jellyfish relationship has implications for humans, coral reefs

Date:
October 30, 2024
Source:
University of Texas at Arlington
Summary:
Marine animals like jellyfish, corals and sea anemones often live with algae inside their cells in a symbiotic relationship. The animals give the algae nutrients and a place to live; in return, algae give the animals some of the food they make from sunlight via photosynthesis. While this food production seems great for the jellyfish, the algae can also change its host animal's immunity, similar to the changes made by human pathogens, like parasites that cause malaria. This side effect of the partnership weakens the jellyfish's immune system, making them worse at fighting off infections.
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Marine animals like jellyfish, corals and sea anemones often live with algae inside their cells in a symbiotic relationship. The animals give the algae nutrients and a place to live; in return, algae give the animals some of the food they make from sunlight via photosynthesis.

While this food production seems great for the jellyfish, the algae can also change its host animal's immunity, similar to the changes made by human pathogens, like parasites that cause malaria. This side effect of the partnership weakens the jellyfish's immune system, making them worse at fighting off infections, according to a new study from researchers at The University of Texas at Arlington.

This research provides answers to how living with symbiotic partners inside animal cells can impact the host animal's immune system. The findings have important implications for other sea creatures, including endangered corals that are dying at a rapid pace due to various disease outbreaks, the most devastating of which has been stony coral tissue loss disease.

For the project, scientists studied the polyp stage of the upside-down jellyfish, a juvenile life stage. During the polyp stage, jellyfish can live with or without symbiotic algae, setting up a natural experiment. The team exposed two groups of jellyfish polyps to a harmful bacterium, one group of polyps with symbiotic algae and the other without.

"The results were clear," said Madison Emery ('24 PhD, Biology), lead author on the study and a UTA alumna who studied in the lab of UTA biology Professor and paper co-author Laura Mydlarz. Dr. Emery is now a postdoctoral researcher at Michigan State University.

"Jellyfish polyps with algae had lower survival rates when exposed to bacteria compared to those without algae," Emery added. "This means that having symbiotic algae inside their cells makes it harder for the jellyfish to survive infections."

Taking a closer look at the genes involved in the immune response, the researchers found that polyps with algae had different gene expression activity than those without. This shows that living with algae changes how the jellyfish's immune system works, making them more vulnerable to bacteria. Researchers believe that the polyps with symbiotic algae are more likely to die due to bacterial infection because their immune response was stronger and with more inflammation, causing more damage to their cells.

"This study is important for coral health and conservation," said Dr. Mydlarz, who has been researching coral reef disease for years. "Corals, like jellyfish, rely on their relationships with algae to get the food they need to survive. These symbiotic relationships are crucial for the health and survival of coral reefs, which are vital to marine biodiversity and coastal protection. Understanding how these relationships affect the immune systems of marine organisms can help scientists develop strategies to protect and restore coral reefs, especially in the face of disease outbreaks and environmental challenges due to climate change."

In addition to Emery and Mydlarz, UTA contributors included biology Associate Professor Mark Pellegrino, fifth-year doctoral student Emily Van Buren, and undergraduate researcher Renee Batiste. Other Mydlarz mentees on the project include Kelsey Beavers ('24 PhD, Biology), now working at the Texas Advanced Computing Center at UT Austin, and Bradford Dimos ('21 PhD, Biology), a postdoctoral researcher at Washington State University.


Story Source:

Materials provided by University of Texas at Arlington. Original written by Katherine Egan Bennett. Note: Content may be edited for style and length.


Journal Reference:

  1. Madison A. Emery, Kelsey M. Beavers, Emily W. Van Buren, Renee Batiste, Bradford Dimos, Mark W. Pellegrino, Laura D. Mydlarz. Trade-off between photosymbiosis and innate immunity influences cnidarian’s response to pathogenic bacteria. Proceedings of the Royal Society B: Biological Sciences, 2024; 291 (2032) DOI: 10.1098/rspb.2024.0428

Cite This Page:

University of Texas at Arlington. "Algae research provides insight on immune health." ScienceDaily. ScienceDaily, 30 October 2024. <www.sciencedaily.com/releases/2024/10/241030150025.htm>.
University of Texas at Arlington. (2024, October 30). Algae research provides insight on immune health. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2024/10/241030150025.htm
University of Texas at Arlington. "Algae research provides insight on immune health." ScienceDaily. www.sciencedaily.com/releases/2024/10/241030150025.htm (accessed December 21, 2024).

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