Insulin production and signaling in renal tubules of Drosophila is under control of tachykinin-related peptide and regulates stress resistance

The insulin-signaling pathway is evolutionarily conserved in animals and regulates growth, reproduction, metabolic homeostasis, stress resistance and life span. In Drosophila seven insulin-like peptides (DILP1-7) are known, some of which are produced in the brain, others in fat body or intestine. He...

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Veröffentlicht in:	PloS one 2011-05, Vol.6 (5), p.e19866-e19866
Hauptverfasser:	Söderberg, Jeannette A E, Birse, Ryan T, Nässel, Dick R
Format:	Artikel
Sprache:	eng
Schlagworte:	Adults Animals Biology Brain Brain research Caenorhabditis elegans Cell survival Diabetes therapy Drosophila Drosophila melanogaster Drosophila melanogaster - cytology Drosophila melanogaster - metabolism Drosophila Proteins - metabolism Fat body Functional Zoomorphology funktionell zoomorfologi Gene Knockdown Techniques Genes Genetic engineering Homeostasis Hormones Immune response Inhibitor of Apoptosis Proteins - metabolism Insects Insulin Insulin - biosynthesis Insulin signaling Kidney Tubules - cytology Kidney Tubules - drug effects Kidney Tubules - metabolism Kidneys Kinases Larva - cytology Larva - drug effects Larva - metabolism Life span Longevity - drug effects Male Malpighian tubules Medical research Metabolism Mutation Nervous system Nutrient deficiency Overexpression Oxidative Stress peptide signaling Peptides Permeability Protein Precursors - metabolism Receptor, Insulin - metabolism Receptors, Tachykinin - metabolism Renal tubules Rodents Signal Transduction Signaling Starvation stress Superoxide dismutase Superoxides Survival Survival Analysis Tachykinin Tachykinin receptors Tachykinins - metabolism Wildlife conservation Zoology
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description	The insulin-signaling pathway is evolutionarily conserved in animals and regulates growth, reproduction, metabolic homeostasis, stress resistance and life span. In Drosophila seven insulin-like peptides (DILP1-7) are known, some of which are produced in the brain, others in fat body or intestine. Here we show that DILP5 is expressed in principal cells of the renal tubules of Drosophila and affects survival at stress. Renal (Malpighian) tubules regulate water and ion homeostasis, but also play roles in immune responses and oxidative stress. We investigated the control of DILP5 signaling in the renal tubules by Drosophila tachykinin peptide (DTK) and its receptor DTKR during desiccative, nutritional and oxidative stress. The DILP5 levels in principal cells of the tubules are affected by stress and manipulations of DTKR expression in the same cells. Targeted knockdown of DTKR, DILP5 and the insulin receptor dInR in principal cells or mutation of Dilp5 resulted in increased survival at either stress, whereas over-expression of these components produced the opposite phenotype. Thus, stress seems to induce hormonal release of DTK that acts on the renal tubules to regulate DILP5 signaling. Manipulations of S6 kinase and superoxide dismutase (SOD2) in principal cells also affect survival at stress, suggesting that DILP5 acts locally on tubules, possibly in oxidative stress regulation. Our findings are the first to demonstrate DILP signaling originating in the renal tubules and that this signaling is under control of stress-induced release of peptide hormone.
doi_str_mv	10.1371/journal.pone.0019866
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In Drosophila seven insulin-like peptides (DILP1-7) are known, some of which are produced in the brain, others in fat body or intestine. Here we show that DILP5 is expressed in principal cells of the renal tubules of Drosophila and affects survival at stress. Renal (Malpighian) tubules regulate water and ion homeostasis, but also play roles in immune responses and oxidative stress. We investigated the control of DILP5 signaling in the renal tubules by Drosophila tachykinin peptide (DTK) and its receptor DTKR during desiccative, nutritional and oxidative stress. The DILP5 levels in principal cells of the tubules are affected by stress and manipulations of DTKR expression in the same cells. Targeted knockdown of DTKR, DILP5 and the insulin receptor dInR in principal cells or mutation of Dilp5 resulted in increased survival at either stress, whereas over-expression of these components produced the opposite phenotype. Thus, stress seems to induce hormonal release of DTK that acts on the renal tubules to regulate DILP5 signaling. Manipulations of S6 kinase and superoxide dismutase (SOD2) in principal cells also affect survival at stress, suggesting that DILP5 acts locally on tubules, possibly in oxidative stress regulation. Our findings are the first to demonstrate DILP signaling originating in the renal tubules and that this signaling is under control of stress-induced release of peptide hormone.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>21572965</pmid><doi>10.1371/journal.pone.0019866</doi><tpages>e19866</tpages><oa>free_for_read</oa></addata></record>
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ispartof	PloS one, 2011-05, Vol.6 (5), p.e19866-e19866
issn	1932-6203 1932-6203
language	eng
recordid	cdi_plos_journals_1294865946
source	MEDLINE; DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Public Library of Science (PLoS); PubMed Central; Free Full-Text Journals in Chemistry
subjects	Adults Animals Biology Brain Brain research Caenorhabditis elegans Cell survival Diabetes therapy Drosophila Drosophila melanogaster Drosophila melanogaster - cytology Drosophila melanogaster - metabolism Drosophila Proteins - metabolism Fat body Functional Zoomorphology funktionell zoomorfologi Gene Knockdown Techniques Genes Genetic engineering Homeostasis Hormones Immune response Inhibitor of Apoptosis Proteins - metabolism Insects Insulin Insulin - biosynthesis Insulin signaling Kidney Tubules - cytology Kidney Tubules - drug effects Kidney Tubules - metabolism Kidneys Kinases Larva - cytology Larva - drug effects Larva - metabolism Life span Longevity - drug effects Male Malpighian tubules Medical research Metabolism Mutation Nervous system Nutrient deficiency Overexpression Oxidative Stress peptide signaling Peptides Permeability Protein Precursors - metabolism Receptor, Insulin - metabolism Receptors, Tachykinin - metabolism Renal tubules Rodents Signal Transduction Signaling Starvation stress Superoxide dismutase Superoxides Survival Survival Analysis Tachykinin Tachykinin receptors Tachykinins - metabolism Wildlife conservation Zoology
title	Insulin production and signaling in renal tubules of Drosophila is under control of tachykinin-related peptide and regulates stress resistance
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