Directionality of Wingless protein transport influences epidermal patterning in the <i>Drosophila</i> embryo

Moline, Melissa M.; Southern, Cozumel; Bejsovec, Amy

doi:10.1242/dev.126.19.4375

Cited by 126 publications

(1 citation statement)

References 44 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…2F, arrow). This pattern disruption is diagnostic of decreased Wg signaling activity (Bejsovec and Wieschaus, 1993;Moline et al, 1999). Indeed, the penetrance of full denticle-belt fusions was increased from 22.5% (n223) to 81.1% (n132) when Tum and Pav were overexpressed in embryos heterozygous for a wg-null allele.…”

Section: Tum and Pav Repress Wnt Signaling In A Heterologous Systemmentioning

confidence: 99%

Cytokinesis proteins Tum and Pav have a nuclear role in Wnt regulation

Jones¹,

Chao²,

Zavortink³

et al. 2010

Development

View full text Add to dashboard Cite

Wg/Wnt signals specify cell fates in both invertebrate and vertebrate embryos and maintain stem-cell populations in many adult tissues. Deregulation of the Wnt pathway can transform cells to a proliferative fate, leading to cancer. We have discovered that two Drosophila proteins that are crucial for cytokinesis have a second, largely independent, role in restricting activity of the Wnt pathway. The fly homolog of RacGAP1, Tumbleweed (Tum)/RacGAP50C, and its binding partner, the kinesin-like protein Pavarotti (Pav), negatively regulate Wnt activity in fly embryos and in cultured mammalian cells. Unlike many known regulators of the Wnt pathway, these molecules do not affect stabilization of Arm/-catenin (cat), the principal effector molecule in Wnt signal transduction. Rather, they appear to act downstream of cat stabilization to control target-gene transcription. Both Tum and Pav accumulate in the nuclei of interphase cells, a location that is spatially distinct from their cleavage-furrow localization during cytokinesis. We show that this nuclear localization is essential for their role in Wnt regulation. Thus, we have identified two modulators of the Wnt pathway that have shared functions in cell division, which hints at a possible link between cytokinesis and Wnt activity during tumorigenesis.

show abstract

Section: Tum and Pav Repress Wnt Signaling In A Heterologous Systemmentioning

confidence: 99%

Cytokinesis proteins Tum and Pav have a nuclear role in Wnt regulation

Jones¹,

Chao²,

Zavortink³

et al. 2010

Development

View full text Add to dashboard Cite

show abstract

Neurogenesis in the Central Nervous System

Dubreuil¹,

Farkas²,

Calegari³

et al. 2005

Cell Signaling and Growth Factors in Development

View full text Add to dashboard Cite

Intracellular trafficking in Drosophila visual system development: A basis for pattern formation through simple mechanisms

Chan

Epstein

Hiesinger

2011

Developmental Neurobiology

View full text Add to dashboard Cite

Intracellular trafficking underlies cellular functions ranging from membrane remodeling to receptor activation. During multicellular organ development, these basic cell biological functions are required as both passive machinery and active signaling regulators. Exocytosis, endocytosis, and recycling of several key signaling receptors have long been known to actively regulate morphogenesis and pattern formation during Drosophila eye development. Hence, intracellular membrane trafficking not only sets the cell biological stage for receptor-mediated signaling but also actively controls signaling through spatiotemporally regulated receptor localization. In contrast to eye development, the role of intracellular trafficking for the establishment of the eye-to-brain connectivity map has only recently received more attention. It is still poorly understood how guidance receptors are spatiotemporally regulated to serve as meaningful synapse formation signals. Yet, the Drosophila visual system provides some of the most striking examples for the regulatory role of intracellular trafficking during multicellular organ development. In this review we will first highlight the experimental and conceptual advances that motivate the study of intracellular trafficking during Drosophila visual system development. We will then illuminate the development of the eye, the eye-to-brain connectivity map and the optic lobe from the perspective of cell biological dynamics. Finally, we provide a conceptual framework that seeks to explain how the interplay of simple genetically encoded intracellular trafficking events governs the seemingly complex cellular behaviors, which in turn determine the developmental product.

show abstract

Directionality of Wingless protein transport influences epidermal patterning in the Drosophila embryo

Cited by 126 publications

References 44 publications

Cytokinesis proteins Tum and Pav have a nuclear role in Wnt regulation

Cytokinesis proteins Tum and Pav have a nuclear role in Wnt regulation

Neurogenesis in the Central Nervous System

Intracellular trafficking in Drosophila visual system development: A basis for pattern formation through simple mechanisms

Contact Info

Product

Resources

About