Unraveling the basis of neurodegeneration using the drosophila eye

Pedro Fernandez-Funez, Jonatan Sanchez-Garcia, Diego E. Rincon-Limas

Research output: Chapter in Book/Report/Conference proceedingChapter

5 Scopus citations


Research progress over the last 20 years has identified misfolded proteins and RNAs bearing noncoding repeat expansions as the culprits in most neurodegenerative diseases. This is the diverse group of brain disorders that typically strikes in mid-to-late life causing progressive loss of motor and/or cognitive functions. Pathologically, these diseases are characterized by the aberrant accumulation of protein (amyloids) and RNA (nuclear foci) in brain neurons. It is unclear, though, how these pathogenic assemblies ultimately cause cell death. To fill this gap, these rogue proteins and RNAs have been expressed in transgenic animal models, including the little fly Drosophila melanogaster. In most cases, these neurotoxic agents preserved their intrinsic pathogenicity, resulting in relevant models to understand how they induce neuronal loss. In this regard, the fly eye has become an invaluable research tool because (i) the precise arrangement of its 800 ommatidia facilitates the detection of structural perturbations and (ii) the eye, unlike the brain, is not required for viability. In addition, the unmatched arsenal of genetic tools enables the validation of candidate genes as well as the discovery of unsuspected molecular mechanisms through genetic interactions. Moreover, the recent combination of in silico and in vitro screens followed by validation in the fly eye has provided a wealth of new targets with potential therapeutic application. This chapter describes the Drosophila eye as a powerful tool in the identification of the genetic mechanisms associated with neurodegenerative processes and the discovery of neuroprotective drugs.

Original languageEnglish (US)
Title of host publicationMolecular Genetics of Axial Patterning, Growth and Disease in the Drosophila Eye
PublisherSpringer New York
Number of pages23
ISBN (Electronic)9781461482321
ISBN (Print)1461482313, 9781461482314
StatePublished - May 1 2013

Bibliographical note

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© 2013 Springer Science+Business Media New York. All rights are reserved.


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