In vivo analysis of compound activity and mechanism of action using epistasis in Drosophila

Bangi, Erdem; Garza, Dan; Hild, Marc

doi:10.1007/s12154-010-0051-5

Cited by 23 publications

(24 citation statements)

References 46 publications

(53 reference statements)

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“…Using an orthogonal approach, we took advantage of the ERK pathway inhibitor U0126 that blocks MEK activation across diverse species (29,30), including Drosophila (31,32). Using an antibody that recognizes activated Drosophila Erk, we found that vertebrate insulin induces Erk activation within 15 min (SI Appendix, Fig.…”

Section: Resultsmentioning

confidence: 99%

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ERK signaling couples nutrient status to antiviral defense in the insect gut

Hopkins

Sabin

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

126

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A unique facet of arthropod-borne virus (arbovirus) infection is that the pathogens are orally acquired by an insect vector during the taking of a blood meal, which directly links nutrient acquisition and pathogen challenge. We show that the nutrient responsive ERK pathway is both induced by and restricts disparate arboviruses in Drosophila intestines, providing insight into the molecular determinants of the antiviral "midgut barrier." Wild-type flies are refractory to oral infection by arboviruses, including Sindbis virus and vesicular stomatitis virus, but this innate restriction can be overcome chemically by oral administration of an ERK pathway inhibitor or genetically via the specific loss of ERK in Drosophila intestinal epithelial cells. In addition, we found that vertebrate insulin, which activates ERK in the mosquito gut during a blood meal, restricts viral infection in Drosophila cells and against viral invasion of the insect gut epithelium. We find that ERK's antiviral signaling activity is likely conserved in Aedes mosquitoes, because genetic or pharmacologic manipulation of the ERK pathway affects viral infection of mosquito cells. These studies demonstrate that ERK signaling has a broadly antiviral role in insects and suggest that insects take advantage of cross-species signals in the meal to trigger antiviral immunity.innate immunity | enterocytes

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Section: Resultsmentioning

confidence: 99%

“…S30). U0126 (500 μM) was used as described (31,32). Flies were fed 10 μL of the following concentrations of virus: VSV (1 × 10 8 pfu/mL), SINV (1 × 10 9 pfu/mL), and DCV (1 × 10 12 IU/mL), unless otherwise indicated.…”

Section: Methodsmentioning

confidence: 99%

ERK signaling couples nutrient status to antiviral defense in the insect gut

Hopkins

Sabin

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

126

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“…Inhibited the differentiation of stem cells into enterocytes [47] Acivicin Inhibited tumor formation in Drosophila by inhibiting CTP synthase [22] Gefitinib and erlotinib Suppressed eye and wing phenotypes induced by EGFR in Drosophila; inhibited dp-ERK1/2 in the eye and wing imaginal discs of wild-type larvae [56] Artemisinin, curcumin Exhibited anticancer activities against brain cancer through generation of reactive oxygen species [60] TAE684, crizotinib Ameliorated the rough-eye phenotype caused by overexpression of hALK F1174L and hALK R1275Q in Drosophila; the effect of crizotinib was less than that of TAE684 [70,71] Imipramine Inhibited fascin pathway in Drosophila; known mediator of tumor invasion and metastasis [76] Triptolide Induced apoptosis in third-instar larval wing discs of Drosophila by inhibiting the ATPase activity of the XPB subunit of TFIIH [84] F14512 Exhibited antiproliferative properties in Drosophila cells; stabilized ternary Topo II-DNA-cleavable complexes at unique sites located in moderately repeated sequences [87] AY9944 Inhibited Hh-induced internalization of the transmembrane protein Ptc as well as the expression of the Hh target gene en; depleted cholesterol from the plasma membrane and its intracellular accumulation in Drosophila tissues [89] Bouvardin Enhanced the effects of radiation in Drosophila larvae through inhibition of the elongation step of protein synthesis [92] Trametinib and fluvastatin Improved tracheal development and reduced over-proliferation and whole-animal toxicity in a Ras-PTEN Drosophila lung cancer model [94]. several aspects of tumor development [23], small molecules that disrupt the function of STAT, such as sunitinib and dasatinib, are now being developed for cancer therapy [24].…”

Section: Statmentioning

confidence: 99%

“…High-throughput screening is an extremely powerful assay that allows quick screening of drugs in vivo against a predetermined target at large scale in a costeffective manner. In brief, cells, embryos, larvae, or adult Drosophila with cancer-causing TFIIH Not defined Larval wing disc [84] Topo II Not defined Adult eye cells [87] Hh Not defined Tissues [89] genes tagged with a luciferase or GFP reporter can be cultured with food containing drugs. After a specific period of time, the effect of the drug on the cancer phenotype can be quantified by various means (Figure 4).…”

mentioning

confidence: 99%

Cancer Drug Development Using Drosophila as an in vivo Tool: From Bedside to Bench and Back

Yadav

Srikrishna

Gupta

2016

Trends in Pharmacological Sciences

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“…Twenty of these compounds can modify specific signalling pathways and the concomitantly induced phenotypes such as the Hh antagonist that linked cholesterol transport to Hh signaling [176]. Latest research deployed Drosophila as a whole organism for investigating the targets and antitargets for cancer polypharmacology [177].…”

Section: Target Discovery and Drug Designmentioning

confidence: 99%

Drosophila and the Hallmarks of Cancer

Christofi

Apidianakis

2013

Advances in Biochemical Engineering/Biotechnology

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: Cancer was the disease of the twentieth century. Today it is still a leading cause of death worldwide despite being intensively investigated. Abundant knowledge exists regarding the pathological and molecular mechanisms that drive healthy cells to become malignant and form metastatic tumors. The relation of oncogenes and tumor suppressors to the genetic trigger of carcinogenesis is unquestionable. However, the development of the disease requires many characteristics that due to their proven role in cancer are collectively described as the "hallmarks of cancer." We highlight here the historic discoveries made using the model organism Drosophila melanogaster and its contributions to biomedical and cancer research. Flies are utilized as a model organism for the investigation of each and every aspect of cancer hallmarks. Due to the significant conservation between flies and mammals at the signaling and tissue physiology level it is possible to explore the genes and mechanisms responsible for cancer pathogenesis in flies. Recent Drosophila studies suggest novel aspects of therapeutic intervention and are expected to guide cancer research in the twenty-first century.

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In vivo analysis of compound activity and mechanism of action using epistasis in Drosophila

Cited by 23 publications

References 46 publications

ERK signaling couples nutrient status to antiviral defense in the insect gut

ERK signaling couples nutrient status to antiviral defense in the insect gut

Cancer Drug Development Using Drosophila as an in vivo Tool: From Bedside to Bench and Back

Drosophila and the Hallmarks of Cancer

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