Transcriptome-wide deregulation of gene expression by artificial light at night in tadpoles of common toads

Artificial light at night (ALAN) affects numerous physiological and behavioural mechanisms in various species by potentially disturbing circadian timekeeping systems and modifying melatonin levels. However, given the multiple direct and indirect effects of ALAN on organisms, large-scale transcriptom...

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Bibliographic Details
Published in:The Science of the total environment 2022-04, Vol.818, p.151734-151734, Article 151734
Main Authors: Touzot, Morgane, Lefebure, Tristan, Lengagne, Thierry, Secondi, Jean, Dumet, Adeline, Konecny-Dupre, Lara, Veber, Philippe, Navratil, Vincent, Duchamp, Claude, Mondy, Nathalie
Format: Article
Language:English
Subjects:
Amphibian
Animals
Biodiversity and Ecology
Bufo bufo
Environmental Sciences
Immune system
Larva
Light
Light Pollution
Lipid metabolism
RNA-seq
Transcriptome
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Summary:Artificial light at night (ALAN) affects numerous physiological and behavioural mechanisms in various species by potentially disturbing circadian timekeeping systems and modifying melatonin levels. However, given the multiple direct and indirect effects of ALAN on organisms, large-scale transcriptomic approaches are essential to assess the global effect of ALAN on biological processes. Moreover, although studies have focused mainly on variations in gene expression during the night in the presence of ALAN, it is necessary to investigate the effect of ALAN on gene expression during the day. In this study, we combined de novo transcriptome sequencing and assembly, and a controlled laboratory experiment to evaluate the transcriptome-wide gene expression response using high-throughput (RNA-seq) in Bufo bufo tadpoles exposed to ecologically relevant light levels. Here, we demonstrated for the first time that ALAN affected gene expression at night (3.5% and 11% of differentially expressed genes when exposed to 0.1 and 5 lx compared to controls, respectively), but also during the day (11.2% of differentially expressed genes when exposed to 5 lx compared to controls) with a dose-dependent effect. ALAN globally induced a downregulation of genes (during the night, 58% and 62% of the genes were downregulated when exposed to 0.1 and 5 lx compared to controls, respectively, and during the day, 61.2% of the genes were downregulated when exposed to 5 lx compared to controls). ALAN effects were detected at very low levels of illuminance (0.1 lx) and affected mainly genes related to the innate immune system and, to a lesser extend to lipid metabolism. These results provide new insights into understanding the effects of ALAN on organism. ALAN impacted the expression of genes linked to a broad range of physiological pathways at very low levels of ALAN during night-time and during daytime, potentially resulting in reduced immune capacity under environmental immune challenges. [Display omitted] •Toads' transcriptome-wide gene expression was studied after light at night exposure.•The effects of 2 ecologically relevant light levels at 2 time periods were tested.•Light at night downregulates expression of most genes both during night and day.•Immunity and lipid metabolism physiological pathways were altered by light at night.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.151734