Iris Salecker scite author profile

Huntington's disease (HD) is an autosomal dominant neurodegenerative disorder. Disease alleles contain a trinucleotide repeat expansion of variable length, which encodes polyglutamine tracts near the amino terminus of the HD protein, huntingtin. Polyglutamine-expanded huntingtin, but not normal huntingtin, forms nuclear inclusions. We describe a Drosophila model for HD. Amino-terminal fragments of human huntingtin containing tracts of 2, 75, and 120 glutamine residues were expressed in photoreceptor neurons in the compound eye. As in human neurons, polyglutamine-expanded huntingtin induced neuronal degeneration. The age of onset and severity of neuronal degeneration correlated with repeat length, and nuclear localization of huntingtin presaged neuronal degeneration. In contrast to other cell death paradigms in Drosophila, coexpression of the viral antiapoptotic protein, P35, did not rescue the cell death phenotype induced by polyglutamine-expanded huntingtin.

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Flybow: genetic multicolor cell labeling for neural circuit analysis in Drosophila melanogaster

Hadjieconomou

Rotkopf

Alexandre³

et al. 2011

Nat Methods

211

215

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To facilitate studies of neural network architecture and formation, we generated three Drosophila melanogaster variants of the mouse Brainbow-2 system, called Flybow. Sequences encoding different membrane-tethered fluorescent proteins were arranged in pairs within cassettes flanked by recombination sites. Flybow combines the Gal4-upstream activating sequence binary system to regulate transgene expression and an inducible modified Flp-FRT system to drive inversions and excisions of cassettes. This provides spatial and temporal control over the stochastic expression of one of two or four reporters within one sample. Using the visual system, the embryonic nervous system and the wing imaginal disc, we show that Flybow in conjunction with specific Gal4 drivers can be used to visualize cell morphology with high resolution. Finally, we demonstrate that this labeling approach is compatible with available Flp-FRT-based techniques, such as mosaic analysis with a repressible cell marker; this could further support the genetic analysis of neural circuit assembly and function.

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Drosophila Photoreceptor Axon Guidance and Targeting Requires the Dreadlocks SH2/SH3 Adapter Protein

Garrity¹,

Rao²,

Salecker³

et al. 1996

Cell

247

191

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Mutations in the Drosophila gene dreadlocks (dock) disrupt photoreceptor cell (R cell) axon guidance and targeting. Genetic mosaic analysis and cell-type-specific expression of dock transgenes demonstrate dock is required in R cells for proper innervation. Dock protein contains one SH2 and three SH3 domains, implicating it in tyrosine kinase signaling, and is highly related to the human proto-oncogene Nck. Dock expression is detected in R cell growth cones in the target region. We propose Dock transmits signals in the growth cone in response to guidance and targeting cues. These findings provide an important step for dissection of signaling pathways regulating growth cone motility.

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A region-specific neurogenesis mode requires migratory progenitors in the Drosophila visual system

Apitz¹,

Salecker²

2014

Nat Neurosci

163

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Brain areas each generate specific neuron subtypes during development. However, underlying regional variations in neurogenesis strategies and regulatory mechanisms remain poorly understood. In Drosophila, neurons in four optic lobe ganglia originate from two neuroepithelia, the outer (Opc) and inner (Ipc) proliferation centers. Using genetic manipulations, we demonstrate that one Ipc neuroepithelial domain progressively transforms into migratory progenitors that mature into neural stem cells/neuroblasts within a second domain. Progenitors emerge by an epithelial-mesenchymal transition-like mechanism, requiring the Snail-family member Escargot and, in subdomains, Decapentaplegic signaling. The proneural factors Lethal of scute and Asense differentially control progenitor supply and maturation into neuroblasts. These switch expression from Asense to a third proneural protein, Atonal. Dichaete and Tailless mediate this transition essential for generating two neuron populations at defined positions. We propose that this neurogenesis mode is central for setting-up a new proliferative zone to facilitate spatio-temporal matching of neurogenesis and connectivity across ganglia.

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Iris Salecker

Polyglutamine-Expanded Human Huntingtin Transgenes Induce Degeneration of Drosophila Photoreceptor Neurons

Flybow: genetic multicolor cell labeling for neural circuit analysis in Drosophila melanogaster

Drosophila Photoreceptor Axon Guidance and Targeting Requires the Dreadlocks SH2/SH3 Adapter Protein

A region-specific neurogenesis mode requires migratory progenitors in the Drosophila visual system

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