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Regeneration in the sponge Sycon ciliatum partly mimics postlarval development

Regeneration in the sponge Sycon ciliatum partly mimics postlarval development
Regeneration in the sponge Sycon ciliatum partly mimics postlarval development
Somatic cells dissociated from an adult sponge can reorganize and develop into a juvenile-like sponge, a remarkable phenomenon of regeneration. However, the extent to which regeneration recapitulates embryonic developmental pathways has remained enigmatic. We have standardized and established a sponge Sycon ciliatum regeneration protocol from dissociated cells. Morphological analysis demonstrated that dissociated sponge cells follow a series of morphological events resembling postembryonic development. We performed high-throughput sequencing on regenerating samples and compared the data with that from regular postlarval development. Our comparative transcriptomic analysis revealed that sponge regeneration is as equally dynamic as embryogenesis. We found that sponge regeneration is orchestrated by recruiting pathways similar to those utilized in embryonic development. We also demonstrated that sponge regeneration is accompanied by cell death at early stages, revealing the importance of apoptosis in remodelling the primmorphs to initiate re-development. Because sponges are likely to be the first branch of extant multicellular animals, we suggest that this system can be explored to study the genetic features underlying the evolution of multicellularity and regeneration.
0950-1991
dev193714
Soubigou, Anael
b7d298fc-4a1f-4850-b462-16cc90c02fcd
Ross, Ethan G.
aa81f807-2dfd-4e73-ab8f-125ac923ff8b
Touhami, Yousef
fa6ab58e-4be0-4245-95cd-3c286be52dcf
Chrismas, Nathan
acb49294-ddfb-4b4f-b5e1-380319840727
Modepalli, Vengamanaidu
e4be75f7-5fe6-42a4-b384-6f530b7376c7
Soubigou, Anael
b7d298fc-4a1f-4850-b462-16cc90c02fcd
Ross, Ethan G.
aa81f807-2dfd-4e73-ab8f-125ac923ff8b
Touhami, Yousef
fa6ab58e-4be0-4245-95cd-3c286be52dcf
Chrismas, Nathan
acb49294-ddfb-4b4f-b5e1-380319840727
Modepalli, Vengamanaidu
e4be75f7-5fe6-42a4-b384-6f530b7376c7

Soubigou, Anael, Ross, Ethan G., Touhami, Yousef, Chrismas, Nathan and Modepalli, Vengamanaidu (2020) Regeneration in the sponge Sycon ciliatum partly mimics postlarval development. Development, 147 (22), dev193714. (doi:10.1242/dev.193714).

Record type: Article

Abstract

Somatic cells dissociated from an adult sponge can reorganize and develop into a juvenile-like sponge, a remarkable phenomenon of regeneration. However, the extent to which regeneration recapitulates embryonic developmental pathways has remained enigmatic. We have standardized and established a sponge Sycon ciliatum regeneration protocol from dissociated cells. Morphological analysis demonstrated that dissociated sponge cells follow a series of morphological events resembling postembryonic development. We performed high-throughput sequencing on regenerating samples and compared the data with that from regular postlarval development. Our comparative transcriptomic analysis revealed that sponge regeneration is as equally dynamic as embryogenesis. We found that sponge regeneration is orchestrated by recruiting pathways similar to those utilized in embryonic development. We also demonstrated that sponge regeneration is accompanied by cell death at early stages, revealing the importance of apoptosis in remodelling the primmorphs to initiate re-development. Because sponges are likely to be the first branch of extant multicellular animals, we suggest that this system can be explored to study the genetic features underlying the evolution of multicellularity and regeneration.

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More information

Accepted/In Press date: 13 October 2020
Published date: 15 November 2020
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Identifiers

Local EPrints ID: 485454
URI: http://eprints.soton.ac.uk/id/eprint/485454
DOI: doi:10.1242/dev.193714
ISSN: 0950-1991
PURE UUID: 58c00716-852e-4122-a83f-66719d1dc57c

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Date deposited: 06 Dec 2023 17:49
Last modified: 16 Mar 2024 10:41

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Contributors

Author: Anael Soubigou
Author: Ethan G. Ross
Author: Yousef Touhami
Author: Nathan Chrismas
Author: Vengamanaidu Modepalli

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