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ABSTRACT: Objectives
The evolutionary conserved JNK pathway plays crucial role in cell death, yet factors that modulate this signalling have not been fully disclosed. In this study, we aim to identify additional factors that regulate JNK signalling in cell death, and characterize the underlying mechanisms.Materials and methods
Drosophila were raised on standard media, and cross was carried out at 25°C. The Gal4/UAS system was used to express proteins or RNAi in a specific temporal and spatial pattern. Gene expression was revealed by GFP fluorescence, X-gal staining or immunostaining of 3rd instar larval eye and wing discs. Cell death was visualized by acridine orange (AO) staining. Images of fly eyes and wings were taken by OLYMPUS microscopes.Results
We found that licorne (lic) encoding the Drosophila MKK3 is an essential regulator of JNK-mediated cell death. Firstly, loss of lic suppressed ectopic Egr-triggered JNK activation and cell death in eye and wing development. Secondary, lic is necessary for loss-of-cell polarity-induced, physiological JNK-dependent cell death in wing development. Thirdly, Lic overexpression is sufficient to initiate JNK-mediated cell death in developing eyes and wings. Furthermore, ectopic Lic activates JNK signalling by promoting JNK phosphorylation. Finally, genetic epistatic analysis confirmed that Lic acts in parallel with Hep in the Egr-JNK pathway.Conclusions
This study not only identified Lic as a novel component of the JNK signalling, but also disclosed the crucial roles and mechanism of Lic in cell death.
SUBMITTER: Sun Y
PROVIDER: S-EPMC6536442 | biostudies-literature | 2019 May
REPOSITORIES: biostudies-literature
Cell proliferation 20190307 3
<h4>Objectives</h4>The evolutionary conserved JNK pathway plays crucial role in cell death, yet factors that modulate this signalling have not been fully disclosed. In this study, we aim to identify additional factors that regulate JNK signalling in cell death, and characterize the underlying mechanisms.<h4>Materials and methods</h4>Drosophila were raised on standard media, and cross was carried out at 25°C. The Gal4/UAS system was used to express proteins or RNAi in a specific temporal and spat ...[more]