Journal
DEVELOPMENTAL BIOLOGY
Volume 345, Issue 1, Pages 1-11Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.ydbio.2010.05.008
Keywords
Pattern formation; Fate transformation; Axin; beta-catenin; Hox; WNT; Notch
Categories
Funding
- HHMI
- USPHS [1P50DK57325]
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In Caenorhabditis elegans males, different subsets of ventral epidermal precursor (Pn.p) cells adopt distinct fates in a position-specific manner: three posterior cells, P(9-11).p, comprise the hook sensillum competence group (HCG) with three potential fates (1 degrees, 2 degrees, or 3 degrees), while eight anterior cells, P(1-8).p, fuse with the hyp7 epidermal syncytium. Here we show that activation of the canonical BAR-1 beta-catenin pathway of Wnt signaling alters the competence of P(3-8).p and specifies ectopic HCG-like fates. This fate transformation requires the Hox gene mab-5. In addition, misexpression of mab-5 in P(1-8).p is sufficient to establish HCG competence among these cells, as well as to generate ectopic HCG fates in combination with LIN-12 or EGF signaling. While increased Wnt signaling induces predominantly 1 HCG fates, increased LIN-12 or EGF signaling in combination with MAB-5 overexpression promotes 2 degrees HCG fates in anterior Pn.p cells, suggesting distinctive functions of Wnt, LIN-12, and EGF signaling in specification of HCG fates. Lastly, wild-type mab-5 function is necessary for normal P(9-11).p fate specification, indicating that regulation of ectopic HCG fate formation revealed in anterior Pn.p cells reflect mechanisms of pattern formation during normal hook development. (C) 2010 Elsevier Inc. All rights reserved.
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