Abstract
Recent studies have investigated whether the Wnt family of extracellular ligands can signal at long range, spreading from their source and acting as morphogens, or whether they signal only in a juxtacrine manner to neighboring cells. The original evidence for long-range Wnt signaling arose from studies of Wg, a Drosophila Wnt protein, which patterns the wing disc over several cell diameters from a central source of Wg ligand. However, the requirement of long-range Wg for patterning was called into question when it was reported that replacing the secreted protein Wg with a membrane-tethered version, NRT-Wg, results in flies with normally patterned wings. We and others previously reported that Wg spreads in the ovary about 50 μm or 5 cell diameters, from the cap cells to the follicle stem cells (FSCs) and that Wg stimulates FSC proliferation. We used the NRT-wg flies to analyze the consequence of tethering Wg to the cap cells. NRT-wg homozygous flies are sickly, but we found that hemizygous NRT-wg/null flies, carrying only one copy of tethered Wingless, were significantly healthier. Despite their overall improved health, these hemizygous flies displayed dramatic reductions in fertility and in FSC proliferation. Further, FSC proliferation was nearly undetectable when the wg locus was converted to NRT-wg only in adults, and the resulting germarium phenotype was consistent with a previously reported wg loss-of-function phenotype. We conclude that Wg protein spreads from its source cells in the germarium to promote FSC proliferation.
Highlights
Wnt signaling is an important and conserved mechanism of cellular communication that controls proliferation and differentiation in many cell types and organisms [1]
Studies in the Drosophila wing established that Wg signals to distant cells, implying that Wg spreads extracellularly
Studies in other tissues and organisms have found Wnt ligands signal in a juxtacrine manner, to neighboring cells
Summary
Wnt signaling is an important and conserved mechanism of cellular communication that controls proliferation and differentiation in many cell types and organisms [1]. The morphogen function of Wg was significantly challenged by the finding that flies are viable and patterned normally when the gene encoding the secreted Wg ligand was replaced with a membrane-tethered version of Wg, NRT-Wg, capable of signaling but not spreading from its source [10]. These flies were reported to be less healthy than their control siblings, their wings were patterned normally, indicating that Wg extracellular spreading is not important for wing pattern. This highly influential study was interpreted to mean that the observed spreading of Wg protein is not important for its signaling, as Wg signaling occurs only in a juxtacrine manner between adjacent cells rather than spreading in a diffusive manner from source cells to target cells [11]
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