Gordon Polevoy scite author profile

Wingless/Wnt signalling directs cell-fate choices during embryonic development. Inappropriate reactivation of the pathway causes cancer. In Drosophila, signal transduction from Wingless stabilizes cytosolic Armadillo, which then forms a bipartite transcription factor with the HMG-box protein Drosophila Tcf (dTcf) and activates expression of Wingless-responsive genes. Here we report that in the absence of Armadillo, dTcf acts as a transcriptional repressor of Wingless-responsive genes, and we show that Groucho acts as a corepressor in this process. Reduction of dTcf activity partially suppresses wingless and armadillo mutant phenotypes, leading to derepression of Wingless-responsive genes. Furthermore, overexpression of wild-type dTcf enhances the phenotype of a weak wingless allele. Finally, mutations in the Drosophila groucho gene also suppress wingless and armadillo mutant phenotypes as Groucho physically interacts with dTcf and is required for its full repressor activity.

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PIP2 Hydrolysis and Calcium Release Are Required for Cytokinesis in Drosophila Spermatocytes

Wong

et al. 2005

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The role of calcium (Ca(2+)) in cytokinesis is controversial, and the precise pathways that lead to its release during cleavage are not well understood. Ca(2+) is released from intracellular stores by binding of inositol trisphosphate (IP3) to the IP3 receptor (IP3R), yet no clear role in cytokinesis has been established for the precursor of IP3, phosphatidylinositol 4,5-bisphosphate (PIP2). Here, using transgenic flies expressing PLCdelta-PH-GFP, which specifically binds PIP2, we identify PIP2 in the plasma membrane and cleavage furrows of dividing Drosophila melanogaster spermatocytes, and we establish that this phospholipid is required for continued ingression but not for initiation of cytokinesis. In addition, by inhibiting phospholipase C, we show that PIP2 must be hydrolyzed to maintain cleavage furrow stability. Using an IP3R antagonist and a Ca(2+) chelator to examine the roles of IP3R and Ca(2+) in cytokinesis, we demonstrate that both of these factors are required for cleavage furrow stability, although Ca(2+) is dispensable for cleavage plane specification and initiation of furrowing. Strikingly, providing cells with Ca(2+) obviates the need to hydrolyze PIP2. Thus, PIP2, PIP2 hydrolysis, and Ca(2+) are required for the normal progression of cytokinesis in these cells.

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Dual roles for the Drosophila PI 4-kinase Four wheel drive in localizing Rab11 during cytokinesis

et al. 2009

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Two phosphatidylinositol 4-kinases control lysosomal delivery of the Gaucher disease enzyme, β-glucocerebrosidase

Jović

Kean

Szentpétery

et al. 2012

MBoC

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Gaucher disease is a lysosomal storage disorder caused by a defect in the degradation of glucosylceramide catalyzed by the lysosomal enzyme β-glucocerebrosidase (GBA). GBA reaches lysosomes via association with its receptor, lysosomal integral membrane protein type 2 (LIMP-2). We found that distinct phosphatidylinositol 4-kinases (PI4Ks) play important roles at multiple steps in the trafficking pathway of the LIMP-2/GBA complex. Acute depletion of phosphatidylinositol 4-phosphate in the Golgi caused accumulation of LIMP-2 in this compartment, and PI4KIIIβ was found to be responsible for controlling the exit of LIMP-2 from the Golgi. In contrast, depletion of PI4KIIα blocked trafficking at a post-Golgi compartment, leading to accumulation of LIMP-2 in enlarged endosomal vesicles. PI4KIIα depletion also caused secretion of missorted GBA into the medium, which was attenuated by limiting LIMP-2/GBA exit from the Golgi by PI4KIIIβ inhibitors. These studies identified PI4KIIIβ and PI4KIIα as important regulators of lysosomal delivery of GBA, revealing a new element of control to sphingolipid homeostasis by phosphoinositides.

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Type II phosphatidylinositol 4-kinase regulates trafficking of secretory granule proteins inDrosophila

Burgess

Bel

Cheng

et al. 2012

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SUMMARYType II phosphatidylinositol 4-kinase (PI4KII) produces the lipid phosphatidylinositol 4-phosphate (PI4P), a key regulator of membrane trafficking. Here, we generated genetic models of the sole Drosophila melanogaster PI4KII gene. A specific requirement for PI4KII emerged in larval salivary glands. In PI4KII mutants, mucin-containing glue granules failed to reach normal size, with glue protein aberrantly accumulating in enlarged Rab7-positive late endosomes. Presence of PI4KII at the Golgi and on dynamic tubular endosomes indicated two distinct foci for its function. First, consistent with the established role of PI4P in the Golgi, PI4KII is required for sorting of glue granule cargo and the granule-associated SNARE Snap24. Second, PI4KII also has an unforeseen function in late endosomes, where it is required for normal retromer dynamics and for formation of tubular endosomes that are likely to be involved in retrieving Snap24 and Lysosomal enzyme receptor protein (Lerp) from late endosomes to the trans-Golgi network. Our genetic analysis of PI4KII in flies thus reveals a novel role for PI4KII in regulating the fidelity of granule protein trafficking in secretory tissues.

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Gordon Polevoy

Drosophila Tcf and Groucho interact to repress Wingless signalling activity

PIP2 Hydrolysis and Calcium Release Are Required for Cytokinesis in Drosophila Spermatocytes

Dual roles for the Drosophila PI 4-kinase Four wheel drive in localizing Rab11 during cytokinesis

Two phosphatidylinositol 4-kinases control lysosomal delivery of the Gaucher disease enzyme, β-glucocerebrosidase

Type II phosphatidylinositol 4-kinase regulates trafficking of secretory granule proteins inDrosophila

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