Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development
Abstract Background Apoptosis is an important process for an organism’s innate immune system to respond to pathogens, while also allowing for cell differentiation and other essential life functions. Caspases are one of the key protease enzymes involved in the apoptotic process, however there is curr...
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ftdatacite:10.6084/m9.figshare.c.5281163 2023-05-15T15:59:02+02:00 Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development Vogeler, Susanne Carboni, Stefano Xiaoxu Li Joyce, Alyssa 2021 https://dx.doi.org/10.6084/m9.figshare.c.5281163 https://springernature.figshare.com/collections/Phylogenetic_analysis_of_the_caspase_family_in_bivalves_implications_for_programmed_cell_death_immune_response_and_development/5281163 unknown figshare https://dx.doi.org/10.1186/s12864-021-07380-0 Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 CC-BY Genetics FOS Biological sciences Collection article 2021 ftdatacite https://doi.org/10.6084/m9.figshare.c.5281163 https://doi.org/10.1186/s12864-021-07380-0 2021-11-05T12:55:41Z Abstract Background Apoptosis is an important process for an organism’s innate immune system to respond to pathogens, while also allowing for cell differentiation and other essential life functions. Caspases are one of the key protease enzymes involved in the apoptotic process, however there is currently a very limited understanding of bivalve caspase diversity and function. Results In this work, we investigated the presence of caspase homologues using a combination of bioinformatics and phylogenetic analyses. We blasted the Crassostrea gigas genome for caspase homologues and identified 35 potential homologues in the addition to the already cloned 23 bivalve caspases. As such, we present information about the phylogenetic relationship of all identified bivalve caspases in relation to their homology to well-established vertebrate and invertebrate caspases. Our results reveal unexpected novelty and complexity in the bivalve caspase family. Notably, we were unable to identify direct homologues to the initiator caspase-9, a key-caspase in the vertebrate apoptotic pathway, inflammatory caspases (caspase-1, − 4 or − 5) or executioner caspases-3, − 6, − 7. We also explored the fact that bivalves appear to possess several unique homologues to the initiator caspase groups − 2 and − 8. Large expansions of caspase-3 like homologues (caspase-3A-C), caspase-3/7 group and caspase-3/7-like homologues were also identified, suggesting unusual roles of caspases with direct implications for our understanding of immune response in relation to common bivalve diseases. Furthermore, we assessed the gene expression of two initiator (Cg2A, Cg8B) and four executioner caspases (Cg3A, Cg3B, Cg3C, Cg3/7) in C. gigas late-larval development and during metamorphosis, indicating that caspase expression varies across the different developmental stages. Conclusion Our analysis provides the first overview of caspases across different bivalve species with essential new insights into caspase diversity, knowledge that can be used for further investigations into immune response to pathogens or regulation of developmental processes. Article in Journal/Newspaper Crassostrea gigas DataCite Metadata Store (German National Library of Science and Technology) |
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DataCite Metadata Store (German National Library of Science and Technology) |
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topic |
Genetics FOS Biological sciences |
spellingShingle |
Genetics FOS Biological sciences Vogeler, Susanne Carboni, Stefano Xiaoxu Li Joyce, Alyssa Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
topic_facet |
Genetics FOS Biological sciences |
description |
Abstract Background Apoptosis is an important process for an organism’s innate immune system to respond to pathogens, while also allowing for cell differentiation and other essential life functions. Caspases are one of the key protease enzymes involved in the apoptotic process, however there is currently a very limited understanding of bivalve caspase diversity and function. Results In this work, we investigated the presence of caspase homologues using a combination of bioinformatics and phylogenetic analyses. We blasted the Crassostrea gigas genome for caspase homologues and identified 35 potential homologues in the addition to the already cloned 23 bivalve caspases. As such, we present information about the phylogenetic relationship of all identified bivalve caspases in relation to their homology to well-established vertebrate and invertebrate caspases. Our results reveal unexpected novelty and complexity in the bivalve caspase family. Notably, we were unable to identify direct homologues to the initiator caspase-9, a key-caspase in the vertebrate apoptotic pathway, inflammatory caspases (caspase-1, − 4 or − 5) or executioner caspases-3, − 6, − 7. We also explored the fact that bivalves appear to possess several unique homologues to the initiator caspase groups − 2 and − 8. Large expansions of caspase-3 like homologues (caspase-3A-C), caspase-3/7 group and caspase-3/7-like homologues were also identified, suggesting unusual roles of caspases with direct implications for our understanding of immune response in relation to common bivalve diseases. Furthermore, we assessed the gene expression of two initiator (Cg2A, Cg8B) and four executioner caspases (Cg3A, Cg3B, Cg3C, Cg3/7) in C. gigas late-larval development and during metamorphosis, indicating that caspase expression varies across the different developmental stages. Conclusion Our analysis provides the first overview of caspases across different bivalve species with essential new insights into caspase diversity, knowledge that can be used for further investigations into immune response to pathogens or regulation of developmental processes. |
format |
Article in Journal/Newspaper |
author |
Vogeler, Susanne Carboni, Stefano Xiaoxu Li Joyce, Alyssa |
author_facet |
Vogeler, Susanne Carboni, Stefano Xiaoxu Li Joyce, Alyssa |
author_sort |
Vogeler, Susanne |
title |
Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
title_short |
Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
title_full |
Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
title_fullStr |
Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
title_full_unstemmed |
Phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
title_sort |
phylogenetic analysis of the caspase family in bivalves: implications for programmed cell death, immune response and development |
publisher |
figshare |
publishDate |
2021 |
url |
https://dx.doi.org/10.6084/m9.figshare.c.5281163 https://springernature.figshare.com/collections/Phylogenetic_analysis_of_the_caspase_family_in_bivalves_implications_for_programmed_cell_death_immune_response_and_development/5281163 |
genre |
Crassostrea gigas |
genre_facet |
Crassostrea gigas |
op_relation |
https://dx.doi.org/10.1186/s12864-021-07380-0 |
op_rights |
Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.6084/m9.figshare.c.5281163 https://doi.org/10.1186/s12864-021-07380-0 |
_version_ |
1766394811828404224 |