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Ancient role of sulfakinin/cholecystokinin-type signalling in inhibitory regulation of feeding processes revealed in an echinoderm
Tinoco, A.B.; Barreiro-Iglesias, A.; Yanez-Guerra, L.A.; Delroisse, J.; Zhang, Y.; Gunner, E.F.; Zampronio, C.G.; Jones, A.M.; Egertová, M.; Elphick, M.R. (2021). Ancient role of sulfakinin/cholecystokinin-type signalling in inhibitory regulation of feeding processes revealed in an echinoderm. eLIFE 10: e65667. https://dx.doi.org/10.7554/eLife.65667
In: eLIFE. eLife Sciences Publications: Cambridge. e-ISSN 2050-084X, more
Peer reviewed article  

Available in  Authors 

Keyword
    Asterias rubens Linnaeus, 1758 [WoRMS]

Authors  Top 
  • Tinoco, A.B.
  • Barreiro-Iglesias, A.
  • Yanez-Guerra, L.A.
  • Delroisse, J., more
  • Zhang, Y.
  • Gunner, E.F.
  • Zampronio, C.G.
  • Jones, A.M.
  • Egertová, M.
  • Elphick, M.R.

Abstract
    Sulfakinin (SK)/cholecystokinin (CCK)-type neuropeptides regulate feeding and digestion in protostomes (e.g. insects) and chordates. Here, we characterised SK/CCK-type signalling for the first time in a non-chordate deuterostome – the starfish Asterias rubens (phylum Echinodermata). In this species, two neuropeptides (ArSK/CCK1, ArSK/CCK2) derived from the precursor protein ArSK/CCKP act as ligands for an SK/CCK-type receptor (ArSK/CCKR) and these peptides/proteins are expressed in the nervous system, digestive system, tube feet, and body wall. Furthermore, ArSK/CCK1 and ArSK/CCK2 cause dose-dependent contraction of cardiac stomach, tube foot, and apical muscle preparations in vitro, and injection of these neuropeptides in vivo triggers cardiac stomach retraction and inhibition of the onset of feeding in A. rubens. Thus, an evolutionarily ancient role of SK/CCK-type neuropeptides as inhibitory regulators of feeding-related processes in the Bilateria has been conserved in the unusual and unique context of the extra-oral feeding behaviour and pentaradial body plan of an echinoderm.

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