A Phenotypic Screen in Zebrafish Identifies a Novel Small-molecule Inducer of Ectopic Tail Formation Suggestive of Alterations in Non-canonical Wnt/PCP Signaling
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Zebrafish have recently emerged as an attractive model for the in vivo bioassay-guided isolation and characterization of pharmacologically active small molecules of natural origin. We carried out a zebrafish-based phenotypic screen of over 3000 plant-derived secondary metabolite extracts with the goal of identifying novel small-molecule modulators of the BMP and Wnt signaling pathways. One of the bioactive plant extracts identified in this screen - Jasminum gilgianum, an Oleaceae species native to Papua New Guinea - induced ectopic tails during zebrafish embryonic development. As ectopic tail formation occurs when BMP or non-canonical Wnt signaling is inhibited during the tail protrusion process, we suspected a constituent of this extract to act as a modulator of these pathways. A bioassay-guided isolation was carried out on the basis of this zebrafish phenotype, identifying para-coumaric acid methyl ester (pCAME) as the active compound. We then performed an in-depth phenotypic analysis of pCAME-treated zebrafish embryos, including a tissue-specific marker analysis of the secondary tails. We found pCAME to synergize with the BMP-inhibitors dorsomorphin and LDN-193189 in inducing ectopic tails, and causing convergence-extension defects in compound-treated embryos. These results indicate that pCAME may interfere with non-canonical Wnt signaling. Inhibition of Jnk, a downstream target of Wnt/PCP signaling (via morpholino antisense knockdown and pharmacological inhibition with the kinase inhibitor SP600125) phenocopied pCAME-treated embryos. However, immunoblotting experiments revealed pCAME to not directly inhibit Jnk-mediated phosphorylation of c-Jun, suggesting additional targets of SP600125, and/or other pathways, as possibly being involved in the ectopic tail formation activity of pCAME. Further investigation of pCAME's mechanism of action will help determine this compound's pharmacological utility.
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Kokkaliari S, Pham K, Shahbazi N, Calcul L, Wojtas L, Wilson N Mar Drugs. 2022; 20(3).
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Hoeksma J, van der Zon G, Ten Dijke P, den Hertog J Dis Model Mech. 2020; 13(9).
PMID: 32820031 PMC: 7522027. DOI: 10.1242/dmm.045971.
Strynatka K, Gurrola-Gal M, Berman J, McMaster C Genetics. 2018; 208(3):833-851.
PMID: 29487144 PMC: 5844338. DOI: 10.1534/genetics.117.300124.
Jobst-Schwan T, Schmidt J, Schneider R, Hoogstraten C, Ullmann J, Schapiro D PLoS One. 2018; 13(1):e0191503.
PMID: 29346415 PMC: 5773193. DOI: 10.1371/journal.pone.0191503.
Chemical screening in zebrafish for novel biological and therapeutic discovery.
Wiley D, Redfield S, Zon L Methods Cell Biol. 2017; 138:651-679.
PMID: 28129862 PMC: 5535795. DOI: 10.1016/bs.mcb.2016.10.004.