A Targeted Gain-of-Function Screen Identifies Genes Affecting Salivary Gland Morphogenesis/Tubulogenesis in Drosophila

Maybeck, Vanessa; Röper, Katja

doi:10.1534/genetics.108.094052

Cited by 29 publications

(39 citation statements)

References 79 publications

(72 reference statements)

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“…Our findings in Garz-depleted animals are consistent with results from a targeted gain-of-function screen in which overexpression of Garz at early stages of gland development resulted in the formation of abnormal hooked salivary glands. 65 The observed disorganization of the Garz-depleted salivary glands correlates with disruption in the localization of Dlg and subcortical GFP-actin, suggesting disturbance in the establishment or maintenance of cell polarity. The Garz-depletion phenotype is similar to that caused by mutations in Nak, a kinase that regulates phosphorylation of AP complexes.…”

Section: Discussionmentioning

confidence: 90%

The Garz Sec7 domain guanine nucleotide exchange factor for Arf regulates salivary gland development in Drosophila

Szul¹,

Burgess

Jeon

et al. 2011

Cellular Logistics

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Section: Discussionmentioning

confidence: 90%

The Garz Sec7 domain guanine nucleotide exchange factor for Arf regulates salivary gland development in Drosophila

Szul¹,

Burgess

Jeon

et al. 2011

Cellular Logistics

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“…Loss of chic disrupts actindependent processes during Drosophila oogenesis and embryogenesis (Cooley et al, 1992;Verheyen and Cooley, 1994), and overexpression of chic in the salivary gland perturbs gland invagination and morphology (Maybeck and Roper, 2009). In chic 221 mutant embryos, gland lumens were widened and shortened, and gland cells failed to elongate their apical domains and rearrange, as was also observed in Rho1 1B mutant embryos (supplementary material Fig.…”

Section: Rho1mentioning

confidence: 99%

Rho GTPase controls Drosophila salivary gland lumen size through regulation of the actin cytoskeleton and Moesin

Bagumian

Galiano

et al. 2011

Development

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SUMMARYGeneration and maintenance of proper lumen size is important for tubular organ function. We report on a novel role for the Drosophila Rho1 GTPase in control of salivary gland lumen size through regulation of cell rearrangement, apical domain elongation and cell shape change. We show that Rho1 controls cell rearrangement and apical domain elongation by promoting actin polymerization and regulating F-actin distribution at the apical and basolateral membranes through Rho kinase. Loss of Rho1 resulted in reduction of F-actin at the basolateral membrane and enrichment of apical F-actin, the latter accompanied by enrichment of apical phosphorylated Moesin. Reducing cofilin levels in Rho1 mutant salivary gland cells restored proper distribution of F-actin and phosphorylated Moesin and rescued the cell rearrangement and apical domain elongation defects of Rho1 mutant glands. In support of a role for Rho1-dependent actin polymerization in regulation of gland lumen size, loss of profilin phenocopied the Rho1 lumen size defects to a large extent. We also show that Ribbon, a BTB domain-containing transcription factor functions with Rho1 in limiting apical phosphorylated Moesin for apical domain elongation. Our studies reveal a novel mechanism for controlling salivary gland lumen size, namely through Rho1-dependent actin polymerization and distribution and downregulation of apical phosphorylated Moesin.

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“…Further analysis of smaller deficiencies that delete genomic intervals contained within one of the 34 genomic intervals led to the identification of a novel role for β2t in salivary gland migration as described above. A recently reported gain-of-function screen for genes affecting salivary gland development utilized a salivary gland-specific GAL4 driver, fkh-GAL4, to drive expression of transposable element (EP element) lines [42]. In such an approach, binding of GAL4 to UAS sites within the EP element, in most cases, leads to overexpression of the downstream gene.…”

Section: Salivary Gland Mutagenesis Screensmentioning

confidence: 99%

Genetic Regulation of Salivary Gland Development in <i>Drosophila melanogaster</i>

Pirraglia¹,

Myat²

2010

Frontiers of Oral Biology

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Studies of salivary gland development in the Drosophila embryo have revealed the morphogenic events by which the salivary gland tubes are formed, and identified the genes and genetic networks that regulate these events. Invagination of the salivary gland primordium occurs by an apical constriction mechanism regulated by the tyrosine kinase, Tec29, the transcription factors, Fork head and Huckebein, and Rho GTPase-mediated actomyosin contraction. After invagination is complete, transcriptional control of the apical membrane protein, Crumbs, by the transcription factors, Hairy, Hkb and Ribbon, and downregulation of Moesin-dependent apical stiffness promotes elongation of the salivary gland lumen. Integrin-mediated adhesion between the gland and surrounding mesoderm, coupled with Rho GTPase-mediated contraction of the proximal gland cells and downregulation of E-cadherin-based cell-cell adhesion by the Rac GTPases, allow turning and posterior migration of the salivary gland. Further posterior migration of the salivary gland is dependent on axon guidance cues, such as Robo and Slit, and close association with surrounding tissues. Many of the genes identified as regulators of salivary gland invagination and migration also control invagination of other epithelial tissues and migration of diverse cell types. Thus, studies of Drosophila salivary gland morphogenesis continue to illuminate the conserved mechanisms by which cells give rise to three-dimensional tissues and organs during embryogenesis.

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A Targeted Gain-of-Function Screen Identifies Genes Affecting Salivary Gland Morphogenesis/Tubulogenesis in Drosophila

Cited by 29 publications

References 79 publications

The Garz Sec7 domain guanine nucleotide exchange factor for Arf regulates salivary gland development in Drosophila

The Garz Sec7 domain guanine nucleotide exchange factor for Arf regulates salivary gland development in Drosophila

Rho GTPase controls Drosophila salivary gland lumen size through regulation of the actin cytoskeleton and Moesin

Genetic Regulation of Salivary Gland Development in <i>Drosophila melanogaster</i>

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