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Literature DB >> 21566195

Polarized notum activation at wounds inhibits Wnt function to promote planarian head regeneration.

Abstract

Regeneration requires initiation of programs tailored to the identity of missing parts. Head-versus-tail regeneration in planarians presents a paradigm for study of this phenomenon. After injury, Wnt signaling promotes tail regeneration. We report that wounding elicits expression of the Wnt inhibitor notum preferentially at anterior-facing wounds. This expression asymmetry occurs at essentially any wound, even if the anterior pole is intact. Inhibition of notum with RNA interference (RNAi) causes regeneration of an anterior-facing tail instead of a head, and double-RNAi experiments indicate that notum inhibits Wnt signaling to promote head regeneration. notum expression is itself controlled by Wnt signaling, suggesting that regulation of feedback inhibition controls the binary head-tail regeneration outcome. We conclude that local detection of wound orientation with respect to tissue axes results in distinct signaling environments that initiate appropriate regeneration responses.

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Year: 2011 PMID： 21566195 PMCID： PMC3320723 DOI： 10.1126/science.1202143

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

23 in total

Polarized notum activation at wounds inhibits Wnt function to promote planarian head regeneration.

Review 1. Fundamentals of planarian regeneration.

2. Distinct Wnt signaling pathways have opposing roles in appendage regeneration.

3. Smed-betacatenin-1 is required for anteroposterior blastema polarity in planarian regeneration.

4. Requirement for Wnt and FGF signaling in Xenopus tadpole tail regeneration.

5. Silencing of Smed-betacatenin1 generates radial-like hypercephalized planarians.

6. Wingless signaling induces widespread chromatin remodeling of target loci.

7. Beta-catenin defines head versus tail identity during planarian regeneration and homeostasis.

8. Opposing activities of Dally-like glypican at high and low levels of Wingless morphogen activity.

9. Bone regeneration is regulated by wnt signaling.

10. Wnt/beta-catenin signaling has an essential role in the initiation of limb regeneration.

1. A zebrafish Notum homolog specifically blocks the Wnt/β-catenin signaling pathway.

2. The evolution of the Wnt pathway.

3. Transcriptional components of anteroposterior positional information during zebrafish fin regeneration.

Review 4. microRNA regulation of Wnt signaling pathways in development and disease.

5. JNK signalling is necessary for a Wnt- and stem cell-dependent regeneration programme.

6. teashirt is required for head-versus-tail regeneration polarity in planarians.

Review 7. Animal regeneration in the era of transcriptomics.

8. Integrin suppresses neurogenesis and regulates brain tissue assembly in planarian regeneration.

9. Regulated tissue fluidity steers zebrafish body elongation.

10. Pathogenic shifts in endogenous microbiota impede tissue regeneration via distinct activation of TAK1/MKK/p38.