Article

Smed-Evi/Wntless is required for beta-catenin-dependent and -independent processes during planarian regeneration. Development (Camb)

Department of Genetics and Institute of Biomedicine of the University of Barcelona, Barcelona, Spain.
Development (Impact Factor: 6.46). 03/2009; 136(6):905-10. DOI: 10.1242/dev.033761
Source: PubMed

ABSTRACT

Planarians can regenerate a whole animal from only a small piece of their body, and have become an important model for stem cell biology. To identify regenerative processes dependent on Wnt growth factors in the planarian Schmidtea mediterranea (Smed), we analyzed RNAi phenotypes of Evi, a transmembrane protein specifically required for the secretion of Wnt ligands. We show that, during regeneration, Smed-evi loss-of-function prevents posterior identity, leading to two-headed planarians that resemble Smed-beta-catenin1 RNAi animals. In addition, we observe regeneration defects of the nervous system that are not found after Smed-beta-catenin1 RNAi. By systematic knockdown of all putative Smed Wnts in regenerating planarians, we identify Smed-WntP-1 and Smed-Wnt11-2 as the putative posterior organizers, and demonstrate that Smed-Wnt5 is a regulator of neuronal organization and growth. Thus, our study provides evidence that planarian Wnts are major regulators of regeneration, and that they signal through beta-catenin-dependent and -independent pathways.

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Available from: Kerstin Bartscherer, Mar 12, 2014
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    • "In the absence of notum, all regenerating structures become posterior as Wnt signaling triggers posterior polarity reestablishment . One day later, notum continues to be detected at the anterior regeneration pole (Petersen & Reddien, 2011), wnt1 at the posterior regeneration pole (Adell, Salo, Boutros, & Bartscherer, 2009;Petersen & Reddien, 2009), and the Activin inhibitor follistatin at both poles (Gavino et al., 2013;Roberts-Galbraith & Newmark, 2013; Fig. 3B). From there, notum contributes to head formation (Scimone et al., 2014;Vogg et al., 2014), wnt1 to tail formation (Petersen & Reddien, 2009), and follistatin to head and tail formation (Gavino et al., 2013;Roberts-Galbraith & Newmark, 2013). "

    Full-text · Article · Jan 2016 · Current Topics in Developmental Biology
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    • "Less stringent RNAi resulted in additional posterior defects, including lack of a blastema, a misshapen blastema or partial head regeneration (supplementary material Fig. S2). Similar posterior blastema defects have also been described for wnt1(RNAi) animals (Adell et al., 2009; Petersen and Reddien, 2009b). teashirt RNAi combined with weak RNAi of wnt1 (under conditions that do not cause a two-headed regeneration phenotype for RNAi of either gene alone) caused enhancement of the phenotype (two-headed animals were observed), demonstrating partial Wnt signaling perturbation can cause synthetic defects when combined with partial teashirt inhibition (Fig. 1E). "
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    ABSTRACT: Regeneration requires that the identities of new cells are properly specified to replace missing tissues. The Wnt signaling pathway serves a central role in specifying posterior cell fates during planarian regeneration. We identified a gene encoding a homolog of the Teashirt family of zinc-finger proteins in the planarian Schmidtea mediterranea to be a target of Wnt signaling in intact animals and at posterior-facing wounds. Inhibition of Smed-teashirt (teashirt) by RNA interference (RNAi) resulted in the regeneration of heads in place of tails, a phenotype previously observed with RNAi of the Wnt pathway genes β-catenin-1, wnt1, Dvl-1/2 or wntless. teashirt was required for β-catenin-1-dependent activation of posterior genes during regeneration. These findings identify teashirt as a transcriptional target of Wnt signaling required for Wnt-mediated specification of posterior blastemas. © 2015. Published by The Company of Biologists Ltd.
    Preview · Article · Feb 2015 · Development
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    • "In planarians, flatworms with enormous regenerative potential (Gentile et al., 2011), the family of secreted Wnt proteins plays a crucial role during regeneration (Adell et al., 2009; Petersen and Reddien, 2009). When depleted of Smed-wnt1, a wnt gene initially expressed in cells at both anterior and posterior wounds, planarians regenerate heads instead of tails (Adell et al., 2009; Petersen and Reddien, 2009). In contrast, the secreted Wnt-inhibitor Notum is induced asymmetrically, mainly at anterior-facing wounds, and its knockdown generates two-tailed animals (Petersen and Reddien, 2011). "
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    ABSTRACT: Planarians can regenerate their head within days. This process depends on the direction of adult stem cells to wound sites and the orchestration of their progenitors to commit to appropriate lineages and to arrange into patterned tissues. We identified a zinc finger transcription factor, Smed-ZicA, as a downstream target of Smed-FoxD, a Forkhead transcription factor required for head regeneration. Smed-zicA and Smed-FoxD are co-expressed with the Wnt inhibitor notum and the Activin inhibitor follistatin in a cluster of cells at the anterior-most tip of the regenerating head - the anterior regeneration pole - and in surrounding stem cell progeny. Depletion of Smed-zicA and Smed-FoxD by RNAi abolishes notum and follistatin expression at the pole and inhibits head formation downstream of initial polarity decisions. We suggest a model in which ZicA and FoxD transcription factors synergize to control the formation of Notum- and Follistatin-producing anterior pole cells. Pole formation might constitute an early step in regeneration, resulting in a signaling center that orchestrates cellular events in the growing tissue.
    Full-text · Article · Jun 2014 · Developmental Biology
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