Abstract
The Wnt signaling pathway plays a conserved role during animal development in transcriptional regulation of distinct targets in different developmental contexts but it remains unclear whether quantitative differences in the nuclear localization of effector proteins TCF and β-catenin contribute to context-specific regulation. We investigated this question in Caenorhabditis elegans embryos by quantifying nuclear localization of fluorescently tagged SYS-1/β-catenin and POP-1/TCF and expression of Wnt ligands at cellular resolution by time-lapse microscopy and automated lineage tracing. We identified reproducible, quantitative differences that generate a subset of Wnt-signaled cells with a significantly higher nuclear concentration of the TCF/β-catenin activating complex. Specifically, β-catenin and TCF are preferentially enriched in nuclei of daughter cells whose parents also had high nuclear levels of that protein, a pattern that could influence developmental gene expression. Consistent with this, we found that expression of synthetic reporters of POP-1-dependent activation is biased towards cells that had high nuclear SYS-1 in consecutive divisions. We identified new genes whose embryonic expression patterns depend on pop-1. Most of these require POP-1 for either transcriptional activation or repression, and targets requiring POP-1 for activation are more likely to be expressed in the cells with high nuclear SYS-1 in consecutive divisions than those requiring POP-1 for repression. Taken together, these results indicate that SYS-1 and POP-1 levels are influenced by the parent cell’s SYS-1/POP-1 levels and this may provide an additional mechanism by which POP-1 regulates distinct targets in different developmental contexts.
Highlights
The Wnt pathway is a conserved cell-cell signaling pathway repeatedly utilized during development and homeostasis in all metazoans
The Wnt signaling pathway plays a conserved role during animal development in transcriptional regulation of distinct targets in different developmental contexts but it remains unclear whether quantitative differences in the nuclear localization of effector proteins TCF and βcatenin contribute to context-specific regulation. We investigated this question in Caenorhabditis elegans embryos by quantifying nuclear localization of fluorescently tagged SYS-1/ β-catenin and POP-1/TCF and expression of Wnt ligands at cellular resolution by timelapse microscopy and automated lineage tracing
In order to understand whether exposure to Wnt ligand quantitatively affects the nuclear localization of POP-1/SYS-1, it is necessary to know when and where the Wnt ligands are expressed
Summary
The Wnt pathway is a conserved cell-cell signaling pathway repeatedly utilized during development and homeostasis in all metazoans. Wnt ligands are expressed posteriorly to establish gradients that pattern the A-P axis in diverse contexts including planarian regeneration [3], neurectoderm patterning in frogs [4], and primary axis specification [5], neural crest diversification [6], and limb patterning in mice [7]. Wnt can act both as a long-range diffusible morphogen and through direct cell contact to regulate gene expression and to orient cell divisions [8,9,10,11]. It remains unclear whether Wnt can act as a morphogen [18] or whether quantitative differences in Wnt pathway activity, as inferred by the nuclear localization of β-catenin, exist in vivo and contribute to context-specific regulation
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