1. Academic Validation
  2. Novel Kunitz-like Peptides Discovered in the Zoanthid Palythoa caribaeorum through Transcriptome Sequencing

Novel Kunitz-like Peptides Discovered in the Zoanthid Palythoa caribaeorum through Transcriptome Sequencing

  • J Proteome Res. 2018 Feb 2;17(2):891-902. doi: 10.1021/acs.jproteome.7b00686.
Qiwen Liao Shengnan Li Shirley Weng In Siu Binrui Yang Chen Huang Judy Yuet-Wa Chan Jean-Étienne R L Morlighem 1 Clarence Tsun Ting Wong 2 Gandhi Rádis-Baptista 1 Simon Ming-Yuen Lee
Affiliations

Affiliations

  • 1 Laboratory of Biochemistry and Biotechnology, Institute for Marine Sciences, Federal University of Ceará , Fortaleza 60020-181, Brazil.
  • 2 Department of Chemistry, The Chinese University of Hong Kong , Shatin, Hong Kong, China.
Abstract

Palythoa caribaeorum (class Anthozoa) is a zoanthid that together jellyfishes, hydra, and sea anemones, which are venomous and predatory, belongs to the Phyllum Cnidaria. The distinguished feature in these marine Animals is the cnidocytes in the body tissues, responsible for toxin production and injection that are used majorly for prey capture and defense. With exception for other anthozoans, the toxin cocktails of zoanthids have been scarcely studied and are poorly known. Here, on the basis of the analysis of P. caribaeorum transcriptome, numerous predicted venom-featured polypeptides were identified including allergens, neurotoxins, membrane-active, and Kunitz-like Peptides (PcKuz). The three predicted PcKuz isotoxins (1-3) were selected for functional studies. Through computational processing comprising structural phylogenetic analysis, molecular docking, and dynamics simulation, PcKuz3 was shown to be a potential voltage gated potassium-channel inhibitor. PcKuz3 fitted well as new functional Kunitz-type toxins with strong antilocomotor activity as in vivo assessed in zebrafish larvae, with weak inhibitory effect toward proteases, as evaluated in vitro. Notably, PcKuz3 can suppress, at low concentration, the 6-OHDA-induced neurotoxicity on the locomotive behavior of zebrafish, which indicated PcKuz3 may have a neuroprotective effect. Taken together, PcKuz3 figures as a novel neurotoxin structure, which differs from known homologous Peptides expressed in sea anemone. Moreover, the novel PcKuz3 provides an insightful hint for biodrug development for prospective neurodegenerative disease treatment.

Keywords

Kunitz-like peptides; Transcriptome; neurotoxin; protein docking; soft coral; zebrafish; zoanthids.

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