PT - JOURNAL ARTICLE AU - Malte Lehmann AU - Sarita Hebbar AU - Holger Brandl AU - Weihua Leng AU - Naharajan Lakshmanaperumal AU - Sylke Winkler AU - Elisabeth Knust TI - Mutations in the <em>Drosophila</em> splicing regulator <em>Prp31</em> as a model for Retinitis pigmentosa 11 AID - 10.1101/147918 DP - 2017 Jan 01 TA - bioRxiv PG - 147918 4099 - http://biorxiv.org/content/early/2017/06/09/147918.short 4100 - http://biorxiv.org/content/early/2017/06/09/147918.full AB - Retinitis pigmentosa is a clinically heterogeneous disease affecting 1.6 million people worldwide. A growing number of identified disease-causing genes are associated with the spliceosome, but the molecular consequences that link defects in splicing factor genes to the aetiology of the disease remain to be elucidated. In this paper, we present a Drosophila model for Retinitis pigmentosa 11, a human disease caused by mutations in the splicing factor PRPF31. Here, we induced mutations in the Drosophila orthologue Prp31. Mutant flies are viable and show a normal eye phenotype when kept under regular light conditions. However, when exposed to constant light, photoreceptors of mutant flies degenerate, thus resembling the human disease phenotype. Degeneration could be shown to be associated with increased oxidative stress. This increase was in agreement with severe dysregulation of genes involved in oxidation/reduction processes, as revealed by high throughput transcriptome sequencing. In fact, light induced photoreceptor cell degeneration could be attenuated by experimentally reducing oxidative stress. A comparable decrease in retinal degeneration was achieved by raising mutant larvae on a vitamin A-depleted medium, thereby reducing rhodopsin levels. Finally, transcriptome data further uncovered an overall retention of introns in mRNAs. Among those, mRNAs of genes involved in synapse assembly, growth and stability were most prominent. These results point to a multifactorial genesis of light induced degeneration in retinae of Prp31 mutant flies, including transcriptional and splicing dysregulation, oxidative stress and defects in vitamin A metabolism.