Dóra Nagy scite author profile

With the approach of winter, many insects switch to an alternative protective developmental program called diapause. Drosophila melanogaster females overwinter as adults by inducing a reproductive arrest that is characterized by inhibition of ovarian development at previtellogenic stages. The insulin producing cells (IPCs) are key regulators of this process, since they produce and release insulin-like peptides that act as diapause-antagonizing hormones. Here we show that in D . melanogaster two neuropeptides, Pigment Dispersing Factor (PDF) and short Neuropeptide F (sNPF) inhibit reproductive arrest, likely through modulation of the IPCs. In particular, genetic manipulations of the PDF-expressing neurons, which include the sNPF-producing small ventral Lateral Neurons (s-LN v s), modulated the levels of reproductive dormancy, suggesting the involvement of both neuropeptides. We expressed a genetically encoded cAMP sensor in the IPCs and challenged brain explants with synthetic PDF and sNPF. Bath applications of both neuropeptides increased cAMP levels in the IPCs, even more so when they were applied together, suggesting a synergistic effect. Bath application of sNPF additionally increased Ca 2+ levels in the IPCs. Our results indicate that PDF and sNPF inhibit reproductive dormancy by maintaining the IPCs in an active state.

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Reactive oxygen species can modulate circadian phase and period in Neurospora crassa

Gyöngyösi

Nagy

Makara

et al. 2013

Free Radical Biology and Medicine

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Diapause in Drosophila melanogaster – Photoperiodicity, cold tolerance and metabolites

Anduaga

Nagy

Costa

et al. 2018

Journal of Insect Physiology

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A Semi-natural Approach for Studying Seasonal Diapause inDrosophila melanogasterReveals Robust Photoperiodicity

Nagy

Andreatta

Bastianello³

et al. 2018

J Biol Rhythms

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The fruit fly Drosophila melanogaster survives thermally stressful conditions in a state of reproductive dormancy (diapause), manifested by reduced metabolic activity and arrested ovarian development in females. Unlike insects that rely primarily on photoperiodic stimuli to initiate the diapause program, in this species dormancy is regulated by low temperature and enhanced by shorter photoperiods. Overwintering phenotypes are usually studied under simple laboratory conditions, where animals are exposed to rectangular light-dark (LD) cycles at a constant temperature. We sought to adopt more realistic diapause protocols by generating LD profiles that better mimic outdoor conditions. Experimental flies were subjected to semi-natural late autumn and summer days, while control females received the same amounts of light but in rectangular LD cycles (LD 8:16 and LD 15:9, respectively). We observed that semi-natural autumnal days induced a higher proportion of females to enter dormancy, while females in semi-natural summer days showed reduced diapause compared with their corresponding rectangular controls, generating an impressive photoperiodic response. In contrast, under rectangular light regimes, the diapause of Drosophila field lines exhibited minimal photoperiodicity. Our semi-natural method reveals that D. melanogaster diapause is considerably more photoperiodic than previously believed and suggests that this seasonal response is best studied under simulated natural lighting conditions.

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Dóra Nagy

Peptidergic signaling from clock neurons regulates reproductive dormancy in Drosophila melanogaster

Reactive oxygen species can modulate circadian phase and period in Neurospora crassa

Diapause in Drosophila melanogaster – Photoperiodicity, cold tolerance and metabolites

A Semi-natural Approach for Studying Seasonal Diapause inDrosophila melanogasterReveals Robust Photoperiodicity

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