The Sleeping Beauty: How Reproductive Diapause Affects Hormone Signaling, Metabolism, Immune Response and Somatic Maintenance in Drosophila melanogaster

Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster...

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Published inPloS one Vol. 9; no. 11; p. e113051
Main Authors Kubrak, Olga I., Kučerová, Lucie, Theopold, Ulrich, Nässel, Dick R.
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 13.11.2014
Public Library of Science (PLoS)
Subjects
Aging
Animals
Biology and Life Sciences
Carbohydrate metabolism
Carbohydrates
Cecropin
Diapause
Diapause, Insect - physiology
Dormancy
Drosomycin
Drosophila
Drosophila melanogaster
Drosophila Proteins - metabolism
Endocrinology
Environmental monitoring
Epithelium
Experiments
Female
Females
Flies
Food intake
Gene expression
Gene regulation
Genes
Glucagon
Homeostasis
Immune response
Immune system
Immunity
Infections
Innate immunity
Insects
Insulin
Insulins - metabolism
Intestine
Kinases
Life span
Lipid metabolism
Lipids
Metabolism
Ovary - physiology
Peptides
Physiology
Senescence
Signal Transduction - physiology
Signaling
Stem cells
Time Factors
Zoology
United States > US
Sweden
Online AccessGet full text
ISSN1932-6203
1932-6203
DOI10.1371/journal.pone.0113051

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Abstract Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.
AbstractList Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.
Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagonand insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.
Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1, are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides (dilp5 and dilp2-3) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster, and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.
Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased temperature and short photoperiod enter a state of arrested development, lowered metabolism, and increased stress resistance. Drosophila melanogaster females can enter a shallow reproductive diapause in the adult stage, which drastically reduces organismal senescence, but little is known about the physiology and endocrinology associated with this dormancy, and the genes involved in its regulation. We induced diapause in D. melanogaster and monitored effects over 12 weeks on dynamics of ovary development, carbohydrate and lipid metabolism, as well as expression of genes involved in endocrine signaling, metabolism and innate immunity. During diapause food intake diminishes drastically, but circulating and stored carbohydrates and lipids are elevated. Gene transcripts of glucagon- and insulin-like peptides increase, and expression of several target genes of these peptides also change. Four key genes in innate immunity can be induced by infection in diapausing flies, and two of these, drosomycin and cecropin A1 , are upregulated by diapause independently of infection. Diapausing flies display very low mortality, extended lifespan and decreased aging of the intestinal epithelium. Many phenotypes induced by diapause are reversed after one week of recovery from diapause conditions. Furthermore, mutant flies lacking specific insulin-like peptides ( dilp5 and dilp2-3 ) display increased diapause incidence. Our study provides a first comprehensive characterization of reproductive diapause in D. melanogaster , and evidence that glucagon- and insulin-like signaling are among the key regulators of the altered physiology during this dormancy.
Author Theopold, Ulrich
Nässel, Dick R.
Kubrak, Olga I.
Kučerová, Lucie
AuthorAffiliation 2 Department of Molecular Biosciences, Wenner-Gren Institute, Stockholm University, Stockholm, Sweden
1 Department of Zoology, Stockholm University, S-106 91 Stockholm, Sweden
Ecole Normale Supérieur de Lyon, France
AuthorAffiliation_xml – name: 1 Department of Zoology, Stockholm University, S-106 91 Stockholm, Sweden
– name: Ecole Normale Supérieur de Lyon, France
– name: 2 Department of Molecular Biosciences, Wenner-Gren Institute, Stockholm University, Stockholm, Sweden
Author_xml – sequence: 1
  givenname: Olga I.
  surname: Kubrak
  fullname: Kubrak, Olga I.
– sequence: 2
  givenname: Lucie
  surname: Kučerová
  fullname: Kučerová, Lucie
– sequence: 3
  givenname: Ulrich
  surname: Theopold
  fullname: Theopold, Ulrich
– sequence: 4
  givenname: Dick R.
  surname: Nässel
  fullname: Nässel, Dick R.
BackLink https://www.ncbi.nlm.nih.gov/pubmed/25393614$$D View this record in MEDLINE/PubMed
https://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-113718$$DView record from Swedish Publication Index
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ContentType Journal Article
Copyright 2014 Kubrak et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
2014 Kubrak et al 2014 Kubrak et al
Copyright_xml – notice: 2014 Kubrak et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
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Competing Interests: The authors have declared that no competing interests exist.
Conceived and designed the experiments: OIK LK UT DRN. Performed the experiments: OIK LK. Analyzed the data: OIK LK UT DRN. Contributed reagents/materials/analysis tools: UT DRN. Wrote the paper: OIK DRN.
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SSID ssj0053866
Score 2.4801958
Snippet Some organisms can adapt to seasonal and other environmental challenges by entering a state of dormancy, diapause. Thus, insects exposed to decreased...
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StartPage e113051
SubjectTerms Aging
Animals
Biology and Life Sciences
Carbohydrate metabolism
Carbohydrates
Cecropin
Diapause
Diapause, Insect - physiology
Dormancy
Drosomycin
Drosophila
Drosophila melanogaster
Drosophila Proteins - metabolism
Endocrinology
Environmental monitoring
Epithelium
Experiments
Female
Females
Flies
Food intake
Gene expression
Gene regulation
Genes
Glucagon
Homeostasis
Immune response
Immune system
Immunity
Infections
Innate immunity
Insects
Insulin
Insulins - metabolism
Intestine
Kinases
Life span
Lipid metabolism
Lipids
Metabolism
Ovary - physiology
Peptides
Physiology
Senescence
Signal Transduction - physiology
Signaling
Stem cells
Time Factors
Zoology
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Title The Sleeping Beauty: How Reproductive Diapause Affects Hormone Signaling, Metabolism, Immune Response and Somatic Maintenance in Drosophila melanogaster
URI https://www.ncbi.nlm.nih.gov/pubmed/25393614
https://www.proquest.com/docview/1624943834
https://www.proquest.com/docview/1625340466
https://pubmed.ncbi.nlm.nih.gov/PMC4231144
https://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-113718
https://doaj.org/article/79f748292a3b4eb2b7e28d78239962fa
http://dx.doi.org/10.1371/journal.pone.0113051
Volume 9
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