Modelling Cancer in
            <i>Drosophila</i>
            : The Next Generation

Cheng, Louise; Parsons, Linda M.; Richardson, Helena E.

doi:10.1002/9780470015902.a0020862.pub2

Cited by 11 publications

(14 citation statements)

References 112 publications

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“…The development of malignant cancer requires the deregulation of many processes, including increased cell proliferation, reduced differentiation and apoptosis, increased invasion, and altered metabolism (reviewed in [ 157 ]). There are only a few tumour-causing genes that when individually knocked down or overexpressed in whole epithelial tissues or large domains, are capable of inducing all the hallmarks of cancer that can be modelled in Drosophila (reviewed in [ 3 , 11 , 15 , 158 ]). Many genes, when deregulated, can cause hyperplastic tumours, characterized by increased tissue growth that are still capable of differentiating, but only a few result in neoplastic tumours, in which the tissue overgrows and shows reduced differentiation and a loss of tissue architecture (reviewed in [ 159 ]).…”

Section: Cooperation Interactions Between Oncogenic or Tumour-suppmentioning

confidence: 99%

“…Use of Drosophila as a model organism for cancer research was pioneered by genetic screens, conducted in the late 1900s, which identified many Drosophila tumour-causing mutations (reviewed in [ 16 , 17 ]). Many of these were novel tumour-suppressor genes or oncogenes, which were subsequently shown to also have tumourigenic properties in mammalian systems and to be involved in human cancer (reviewed in [ 8 , 9 , 11 , 18 , 19 ]).…”

Section: Introduction: Drosophila As a Model Fomentioning

confidence: 99%

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Modelling Cooperative Tumorigenesis inDrosophila

Richardson

Portela

2018

BioMed Research International

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The development of human metastatic cancer is a multistep process, involving the acquisition of several genetic mutations, tumour heterogeneity, and interactions with the surrounding microenvironment. Due to the complexity of cancer development in mammals, simpler model organisms, such as the vinegar fly, Drosophila melanogaster, are being utilized to provide novel insights into the molecular mechanisms involved. In this review, we highlight recent advances in modelling tumorigenesis using the Drosophila model, focusing on the cooperation of oncogenes or tumour suppressors, and the interaction of mutant cells with the surrounding tissue in epithelial tumour initiation and progression.

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Section: Cooperation Interactions Between Oncogenic or Tumour-suppmentioning

confidence: 99%

Section: Introduction: Drosophila As a Model Fomentioning

confidence: 99%

Modelling Cooperative Tumorigenesis inDrosophila

Richardson

Portela

2018

BioMed Research International

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“…Decades of fundamental research utilizing the vinegar fly, Drosophila melanogaster, have revealed many important genes and signalling networks that have subsequently proven to be important in human cancer (reviewed by [1][2][3][4]. Of particular interest for epithelial and neural cancers are the junctional neoplastic tumor suppressors, Lgl, Discs large (Dlg) and Scribbled (Scrib) (reviewed by 5 ).…”

Section: Introductionmentioning

confidence: 99%

Regulation of Notch signaling and endocytosis by the Lgl neoplastic tumor suppressor

et al. 2015

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The evolutionarily conserved neoplastic tumor suppressor protein, Lethal (2) giant larvae (Lgl), plays roles in cell polarity and tissue growth via regulation of the Hippo pathway. In our recent study, we showed that in the developing Drosophila eye epithelium, depletion of Lgl leads to increased ligand-dependent Notch signaling. lgl mutant tissue also exhibits an accumulation of early endosomes, recycling endosomes, early-multivesicular body markers and acidic vesicles. We showed that elevated Notch signaling in lgl(-) tissue can be rescued by feeding larvae the vesicle de-acidifying drug chloroquine, revealing that Lgl attenuates Notch signaling by limiting vesicle acidification. Strikingly, chloroquine also rescued the lgl(-) overgrowth phenotype, suggesting that the Hippo pathway defects were also rescued. In this extraview, we provide additional data on the regulation of Notch signaling and endocytosis by Lgl, and discuss possible mechanisms by which Lgl depletion contributes to signaling pathway defects and tumorigenesis.

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“…Understanding the molecular events that occur during cooperative tumorigenesis is critical in order to develop therapeutics to combat cancer. The model organism, Drosophila melanogaster (vinegar fly), has proven to be an excellent model for the discovery of new tumorigenic genes and the dissection of their roles in tumour progression, and has proven relevance to human cancer ( Brumby and Richardson, 2005 ; Cheng et al, 2013 ; Gonzalez, 2013 ; Rudrapatna et al, 2012 ; Stefanatos and Vidal, 2011 ).…”

Section: Introductionmentioning

confidence: 99%

Cooperation of the BTB-Zinc finger protein, Abrupt, with cytoskeletal regulators inDrosophilaepithelial tumorigenesis

et al. 2015

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The deregulation of cell polarity or cytoskeletal regulators is a common occurrence in human epithelial cancers. Moreover, there is accumulating evidence in human epithelial cancer that BTB-ZF genes, such as Bcl6 and ZBTB7A, are oncogenic. From our previous studies in the vinegar fly, Drosophila melanogaster, we have identified a cooperative interaction between a mutation in the apico-basal cell polarity regulator Scribble (Scrib) and overexpression of the BTB-ZF protein Abrupt (Ab). Herein, we show that co-expression of ab with actin cytoskeletal regulators, RhoGEF2 or Src64B, in the developing eye-antennal epithelial tissue results in the formation of overgrown amorphous tumours, whereas ab and DRac1 co-expression leads to non-cell autonomous overgrowth. Together with ab, these genes affect the expression of differentiation genes, resulting in tumours locked in a progenitor cell fate. Finally, we show that the expression of two mammalian genes related to ab, Bcl6 and ZBTB7A, which are oncogenes in mammalian epithelial cancers, significantly correlate with the upregulation of cytoskeletal genes or downregulation of apico-basal cell polarity neoplastic tumour suppressor genes in colorectal, lung and other human epithelial cancers. Altogether, this analysis has revealed that upregulation of cytoskeletal regulators cooperate with Abrupt in Drosophila epithelial tumorigenesis, and that high expression of human BTB-ZF genes, Bcl6 and ZBTB7A, shows significant correlations with cytoskeletal and cell polarity gene expression in specific epithelial tumour types. This highlights the need for further investigation of the cooperation between these genes in mammalian systems.

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Modelling Cancer in Drosophila : The Next Generation

Cited by 11 publications

References 112 publications

Modelling Cooperative Tumorigenesis inDrosophila

Modelling Cooperative Tumorigenesis inDrosophila

Regulation of Notch signaling and endocytosis by the Lgl neoplastic tumor suppressor

Cooperation of the BTB-Zinc finger protein, Abrupt, with cytoskeletal regulators inDrosophilaepithelial tumorigenesis

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