Large-scale deorphanization of Nematostella vectensis neuropeptide G protein-coupled receptors supports the independent expansion of bilaterian and cnidarian peptidergic systems
Large-scale deorphanization of Nematostella vectensis neuropeptide G protein-coupled receptors supports the independent expansion of bilaterian and cnidarian peptidergic systems
Neuropeptides are ancient signaling molecules in animals but only few peptide receptors are known outside bilaterians. Cnidarians possess a large number of G protein-coupled receptors (GPCRs) – the most common receptors of bilaterian neuropeptides – but most of these remain orphan with no known ligands. We searched for neuropeptides in the sea anemone Nematostella vectensis and created a library of 64 peptides derived from 33 precursors. In a large-scale pharmacological screen with these peptides and 161 N. vectensis GPCRs, we identified 31 receptors specifically activated by 1 to 3 of 14 peptides. Mapping GPCR and neuropeptide expression to single-cell sequencing data revealed how cnidarian tissues are extensively connected by multilayer peptidergic networks. Phylogenetic analysis identified no direct orthology to bilaterian peptidergic systems and supports the independent expansion of neuropeptide signaling in cnidarians from a few ancestral peptide-receptor pairs.
Evolutionary biology, GPCRs, Neuroscience, Peptides, evolutionary biology, Nematostella vectensis, Hydra vulgaris, neuropeptide, neuroscience, Clytia hemisphaerica, GPCR, Exaiptasia pallida
Thiel, Daniel
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Guerra, Luis Alfonso Yañez
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Kieswetter, Amanda
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Cole, Alison G.
56287fa3-ecbd-497f-8817-a45ddc2b5f0b
Temmerman, Liesbet
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Technau, Ulrich
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Jékely, Gáspár
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10 May 2024
Thiel, Daniel
83d5d2dc-428b-40ef-a12c-fa4333aac9fe
Guerra, Luis Alfonso Yañez
cbca947b-bbf0-4b91-96b0-4a126e3b94b6
Kieswetter, Amanda
13b67c91-1592-4fa2-82f6-e1de00e364d8
Cole, Alison G.
56287fa3-ecbd-497f-8817-a45ddc2b5f0b
Temmerman, Liesbet
fd27b392-1076-439c-a1e8-685e713585d7
Technau, Ulrich
b27a57f6-053b-47d3-81a1-fa2f33f8c61f
Jékely, Gáspár
94f0485f-2d93-4df4-b287-1e5b01295578
Thiel, Daniel, Guerra, Luis Alfonso Yañez, Kieswetter, Amanda, Cole, Alison G., Temmerman, Liesbet, Technau, Ulrich and Jékely, Gáspár
(2024)
Large-scale deorphanization of Nematostella vectensis neuropeptide G protein-coupled receptors supports the independent expansion of bilaterian and cnidarian peptidergic systems.
eLife, 12, [RP90674].
(doi:10.7554/eLife.90674.3).
Abstract
Neuropeptides are ancient signaling molecules in animals but only few peptide receptors are known outside bilaterians. Cnidarians possess a large number of G protein-coupled receptors (GPCRs) – the most common receptors of bilaterian neuropeptides – but most of these remain orphan with no known ligands. We searched for neuropeptides in the sea anemone Nematostella vectensis and created a library of 64 peptides derived from 33 precursors. In a large-scale pharmacological screen with these peptides and 161 N. vectensis GPCRs, we identified 31 receptors specifically activated by 1 to 3 of 14 peptides. Mapping GPCR and neuropeptide expression to single-cell sequencing data revealed how cnidarian tissues are extensively connected by multilayer peptidergic networks. Phylogenetic analysis identified no direct orthology to bilaterian peptidergic systems and supports the independent expansion of neuropeptide signaling in cnidarians from a few ancestral peptide-receptor pairs.
Text
Large-scale deorphanization of Nematostella vectensis neuropeptide G protein-coupled receptors supports the independent expansion of bilaterian and cnidarian peptidergic systems
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Published date: 10 May 2024
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For the purpose of Open Access, the authors have applied a CC BY public copyright license to any Author Accepted Manuscript version arising from this submission.
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© Thiel, Yañez Guerra et al.
Keywords:
Evolutionary biology, GPCRs, Neuroscience, Peptides, evolutionary biology, Nematostella vectensis, Hydra vulgaris, neuropeptide, neuroscience, Clytia hemisphaerica, GPCR, Exaiptasia pallida
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Local EPrints ID: 491174
URI: http://eprints.soton.ac.uk/id/eprint/491174
ISSN: 2050-084X
PURE UUID: 2aa36f6b-4a8b-4248-894b-fce05d2865ba
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Date deposited: 13 Jun 2024 17:15
Last modified: 12 Dec 2024 03:08
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Author:
Daniel Thiel
Author:
Luis Alfonso Yañez Guerra
Author:
Amanda Kieswetter
Author:
Alison G. Cole
Author:
Liesbet Temmerman
Author:
Ulrich Technau
Author:
Gáspár Jékely
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