Catalase characterization and implication in bleaching of a symbiotic sea anemone
Catalase characterization and implication in bleaching of a symbiotic sea anemone
Symbiotic cnidarians are marine invertebrates harboring photosynthesizing microalgae (named zooxanthellae), which produce great amounts of oxygen and free radicals upon illumination. Studying antioxidative balance is then crucial to understanding how symbiotic cnidarians cope with ROS production. In particular, it is suspected that oxidative stress triggers cnidarian bleaching, i.e., the expulsion of zooxanthellae from the animal host, responsible for symbiotic cnidarian mass mortality worldwide. This study therefore investigates catalase antioxidant enzymes and their role in bleaching of the temperate symbiotic sea anemone Anemonia viridis. Using specific separation of animal tissues (ectoderm and endoderm) from the symbionts (zooxanthellae), spectrophotometric assays and native PAGE revealed both tissue-specific and activity pattern distribution of two catalase electrophoretypes, E1 and E2. E1, expressed in all three tissues, presents high sensitivity to the catalase inhibitor aminotriazole (ATZ) and elevated temperatures. The ectodermal E1 form is responsible for 67% of total catalase activity. The E2 form, expressed only within zooxanthellae and their host endodermal cells, displays low sensitivity to ATZ and relative thermostability. We further cloned an ectodermal catalase, which shares 68% identity with mammalian monofunctional catalases. Last, 6 days of exposure of whole sea anemones to ATZ (0.5 mM) led to effective catalase inhibition and initiated symbiont expulsion. This demonstrates the crucial role of this enzyme in cnidarian bleaching, a phenomenon responsible for worldwide climate-change-induced mass mortalities, with catastrophic consequences for marine biodiversity.
236-246
Merle, Pierre-Laurent
57d40c27-ef81-4395-9085-541acd320f3a
Sabourault, Cécile
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Richier, Sophie
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Allemand, Denis
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Furla, Paola
d3e7b181-371a-4a7a-8749-594e704d10d7
15 January 2007
Merle, Pierre-Laurent
57d40c27-ef81-4395-9085-541acd320f3a
Sabourault, Cécile
aa168761-8462-4621-975f-fc803280e966
Richier, Sophie
0fc0b375-6918-4c06-9d6f-229f6c4046ca
Allemand, Denis
a9a9145a-9129-4827-83ae-f204d180d945
Furla, Paola
d3e7b181-371a-4a7a-8749-594e704d10d7
Merle, Pierre-Laurent, Sabourault, Cécile, Richier, Sophie, Allemand, Denis and Furla, Paola
(2007)
Catalase characterization and implication in bleaching of a symbiotic sea anemone.
Free Radical Biology and Medicine, 42 (2), .
(doi:10.1016/j.freeradbiomed.2006.10.038).
(PMID:17189829)
Abstract
Symbiotic cnidarians are marine invertebrates harboring photosynthesizing microalgae (named zooxanthellae), which produce great amounts of oxygen and free radicals upon illumination. Studying antioxidative balance is then crucial to understanding how symbiotic cnidarians cope with ROS production. In particular, it is suspected that oxidative stress triggers cnidarian bleaching, i.e., the expulsion of zooxanthellae from the animal host, responsible for symbiotic cnidarian mass mortality worldwide. This study therefore investigates catalase antioxidant enzymes and their role in bleaching of the temperate symbiotic sea anemone Anemonia viridis. Using specific separation of animal tissues (ectoderm and endoderm) from the symbionts (zooxanthellae), spectrophotometric assays and native PAGE revealed both tissue-specific and activity pattern distribution of two catalase electrophoretypes, E1 and E2. E1, expressed in all three tissues, presents high sensitivity to the catalase inhibitor aminotriazole (ATZ) and elevated temperatures. The ectodermal E1 form is responsible for 67% of total catalase activity. The E2 form, expressed only within zooxanthellae and their host endodermal cells, displays low sensitivity to ATZ and relative thermostability. We further cloned an ectodermal catalase, which shares 68% identity with mammalian monofunctional catalases. Last, 6 days of exposure of whole sea anemones to ATZ (0.5 mM) led to effective catalase inhibition and initiated symbiont expulsion. This demonstrates the crucial role of this enzyme in cnidarian bleaching, a phenomenon responsible for worldwide climate-change-induced mass mortalities, with catastrophic consequences for marine biodiversity.
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Published date: 15 January 2007
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Environmental
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Local EPrints ID: 341904
URI: http://eprints.soton.ac.uk/id/eprint/341904
ISSN: 0891-5849
PURE UUID: 9bf80896-d412-400e-b8a1-292b7f829062
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Date deposited: 14 Aug 2012 09:55
Last modified: 14 Mar 2024 11:45
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Author:
Pierre-Laurent Merle
Author:
Cécile Sabourault
Author:
Sophie Richier
Author:
Denis Allemand
Author:
Paola Furla
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