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Τρίτη 7 Φεβρουαρίου 2017

Antagonistic Self-Organizing Patterning Systems Control Maintenance and Regeneration of the Anteroposterior Axis in Planarians

Publication date: 6 February 2017
Source:Developmental Cell, Volume 40, Issue 3
Author(s): Tom Stückemann, James Patrick Cleland, Steffen Werner, Hanh Thi-Kim Vu, Robert Bayersdorf, Shang-Yun Liu, Benjamin Friedrich, Frank Jülicher, Jochen Christian Rink
Planarian flatworms maintain their body plan in the face of constant internal turnover and can regenerate from arbitrary tissue fragments. Both phenomena require self-maintaining and self-organizing patterning mechanisms, the molecular mechanisms of which remain poorly understood. We show that a morphogenic gradient of canonical Wnt signaling patterns gene expression along the planarian anteroposterior (A/P) axis. Our results demonstrate that gradient formation likely occurs autonomously in the tail and that an autoregulatory module of Wnt-mediated Wnt expression both shapes the gradient at steady state and governs its re-establishment during regeneration. Functional antagonism between the tail Wnt gradient and an unknown head patterning system further determines the spatial proportions of the planarian A/P axis and mediates mutually exclusive molecular fate choices during regeneration. Overall, our results suggest that the planarian A/P axis is patterned by self-organizing patterning systems deployed from either end that are functionally coupled by mutual antagonism.

Graphical abstract

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Teaser

The regenerative abilities of planarians depend on long-range signaling gradients. Stückemann, Cleland, Werner et al. show that a tail-to-head Wnt gradient patterns the expression of genes, including gradient-forming Wnt pathway components. Mutual antagonism between the autoregulatory tail gradient and a self-organizing head patterning system governs global A/P patterning and pattern regeneration.


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