# Systematic generation of Drosophila Wnt transgenes enables the characterization of canonical Wnt signaling

**Authors:** Jamie C. Little, Marc Debrunner, Thom de Hoog, Farzad Tadjik, Chiara J. Kehl, George Hausmann, Erich Brunner, Konrad Basler

PMC · DOI: 10.1080/19336934.2026.2624185 · Fly · 2026-02-10

## TL;DR

This study creates functional Wnt transgenes in fruit flies to better understand how different Wnt signals work in development and disease.

## Contribution

A complete set of insulated Wnt transgenes in Drosophila enables systematic analysis of canonical Wnt signaling.

## Key findings

- Multiple Drosophila Wnt ligands, including wg, DWnt6, and DWnt10, induce canonical signaling in various tissues.
- DWnt2 and DWnt4 show context-dependent canonical activity distinct from controls.
- The study provides functional evidence for redundancy and specificity within the Drosophila Wnt family.

## Abstract

A conserved cohort of signalling pathways orchestrate development and adult homoeostasis. Deregulation of these pathways underlies many diseases. A key set of signals is the family of Wnt ligands. Members of this family are conserved, but a clear understanding of the unique and redundant roles is lacking. Previous efforts to study Wnt ligand function in Drosophila have been hampered by the difficulty of generating , functional transgenes. To address this, we have created a complete set of synthesized constructs in an insulated expression system, integrated into the same genomic location, enabling reliable gain-of-function analyses across multiple tissues. Distinct phenotypic outcomes were observed, reflecting both shared and unique features of individual ligands. To define the canonicity of Wnt signalling, we monitored canonical targets such as Dfz3, notum, and the ‘naked cuticle’ phenotype in developing tissues and the adult gut. Our findings revealed strong evidence of canonical responses from not only wg, but also DWnt6 and DWnt10 in the embryo, wing disc, larval gut, and adult gut. In addition, DWnt2, DWnt4, and WntD produced phenotypes distinct from the control with DWnt2 and DWnt4, showing context-dependent evidence of some canonical activity. While previous studies have suggested regulatory features between wg and DWnt6, our work provides functional evidence that Wg, DWnt6, and DWnt10 each induce expression of canonical signalling reporters in vivo. These findings refine our understanding of redundancy and specificity within the Drosophila Wnt family and demonstrate that multiple Wnt ligands can act similarly within the canonical pathway depending on tissue context.

## Linked entities

- **Genes:** WG (Wegener granulomatosis) [NCBI Gene 474168], Wnt6 (Wnt oncogene analog 6) [NCBI Gene 34010], Wnt10 (Wnt oncogene analog 10) [NCBI Gene 34011], Wnt2 (Wnt oncogene analog 2) [NCBI Gene 35975], Wnt4 (Wnt oncogene analog 4) [NCBI Gene 34007], wntD (wnt inhibitor of Dorsal) [NCBI Gene 41633], fz3 (frizzled 3) [NCBI Gene 31023], NOTUM (notum, palmitoleoyl-protein carboxylesterase) [NCBI Gene 147111]
- **Species:** Drosophila (taxon 7215)

## Full-text entities

- **Genes:** wntD (wnt inhibitor of Dorsal) [NCBI Gene 41633] {aka CG8458, DWnt-8, DWnt8, DWntD, Dm DWnt8, Dmel\CG8458}, Wnt2 (Wnt oncogene analog 2) [NCBI Gene 35975] {aka CG1916, D-wnt-2, DWnt-2, DWnt2, Dm DWnt2, Dm-2}, fz3 (frizzled 3) [NCBI Gene 31023] {aka CG16785, DFz3, Dfz3, Dm Fz3, Dmel\CG16785, EG:34F3.6}, Wnt10 (Wnt oncogene analog 10) [NCBI Gene 34011] {aka CG4971, D-Wnt-10, DWnt-10, DWnt10, Dm DWnt10, Dmel\CG4971}, Wnt4 (Wnt oncogene analog 4) [NCBI Gene 34007] {aka CG4698, DWnt-4, DWnt4, Dm DWnt4, Dmel\CG4698, Dwnt-4}, Wnt6 (Wnt oncogene analog 6) [NCBI Gene 34010] {aka CG4969, D-Wnt-6, DWnt-6, DWnt6, Dmel\CG4969, Dwnt-6}
- **Species:** Drosophila melanogaster (fruit fly, species) [taxon 7227]

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12893696/full.md

## References

69 references — full list in the complete paper: https://tomesphere.com/paper/PMC12893696/full.md

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Source: https://tomesphere.com/paper/PMC12893696