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Chemical activation of a food deprivation signal extends lifespan

Chemical activation of a food deprivation signal extends lifespan
Chemical activation of a food deprivation signal extends lifespan
Model organisms subject to dietary restriction (DR) generally live longer. Accompanying this lifespan extension are improvements in overall health, based on multiple metrics. This indicates that pharmacological treatments that mimic the effects of DR could improve health in humans. To find new chemical structures that extend lifespan, we screened 30 000 synthetic, diverse drug-like chemicals in Caenorhabditis elegans and identified several structurally related compounds that acted through DR mechanisms. The most potent of these NP1 impinges upon a food perception pathway by promoting glutamate signaling in the pharynx. This results in the overriding of a GPCR pathway involved in the perception of food and which normally acts to decrease glutamate signals. Our results describe the activation of a dietary restriction response through the pharmacological masking of a novel sensory pathway that signals the presence of food. This suggests that primary sensory pathways may represent novel targets for human pharmacology.
1474-9718
832-841
Lucanic, Mark
3dc8341b-767c-49b0-a6d7-e820c9f181e9
Garrett, Theo
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Yu, Ivan
ffbb5e91-c779-49bd-ad95-44b8ba139569
Calahorro Nunez, Fernando
dddfa373-d3cc-433f-8851-9ca37f2f3950
Asadi Shahmirzadi, Azar
58b18d74-8025-4c11-a5e1-10c81012cccd
Miller, Aaron
c28012a1-4d2d-4236-812f-ae2300cca206
Gill, Matthew S.
16ed3834-7bdf-44a5-b19e-49d6865bf518
Hughes, Robert E.
02afae5e-680b-4c00-81b0-57ee0f5eec4e
Holden-Dye, Linda
8032bf60-5db6-40cb-b71c-ddda9d212c8e
Lithgow, Gordon J.
b6183aa5-c449-4821-8142-4669c1bcdfa7
Lucanic, Mark
3dc8341b-767c-49b0-a6d7-e820c9f181e9
Garrett, Theo
580e3453-b216-4ff7-90c9-8af2764e4c0c
Yu, Ivan
ffbb5e91-c779-49bd-ad95-44b8ba139569
Calahorro Nunez, Fernando
dddfa373-d3cc-433f-8851-9ca37f2f3950
Asadi Shahmirzadi, Azar
58b18d74-8025-4c11-a5e1-10c81012cccd
Miller, Aaron
c28012a1-4d2d-4236-812f-ae2300cca206
Gill, Matthew S.
16ed3834-7bdf-44a5-b19e-49d6865bf518
Hughes, Robert E.
02afae5e-680b-4c00-81b0-57ee0f5eec4e
Holden-Dye, Linda
8032bf60-5db6-40cb-b71c-ddda9d212c8e
Lithgow, Gordon J.
b6183aa5-c449-4821-8142-4669c1bcdfa7

Lucanic, Mark, Garrett, Theo, Yu, Ivan, Calahorro Nunez, Fernando, Asadi Shahmirzadi, Azar, Miller, Aaron, Gill, Matthew S., Hughes, Robert E., Holden-Dye, Linda and Lithgow, Gordon J. (2016) Chemical activation of a food deprivation signal extends lifespan. Aging Cell, 15 (5), 832-841. (doi:10.1111/acel.12492).

Record type: Article

Abstract

Model organisms subject to dietary restriction (DR) generally live longer. Accompanying this lifespan extension are improvements in overall health, based on multiple metrics. This indicates that pharmacological treatments that mimic the effects of DR could improve health in humans. To find new chemical structures that extend lifespan, we screened 30 000 synthetic, diverse drug-like chemicals in Caenorhabditis elegans and identified several structurally related compounds that acted through DR mechanisms. The most potent of these NP1 impinges upon a food perception pathway by promoting glutamate signaling in the pharynx. This results in the overriding of a GPCR pathway involved in the perception of food and which normally acts to decrease glutamate signals. Our results describe the activation of a dietary restriction response through the pharmacological masking of a novel sensory pathway that signals the presence of food. This suggests that primary sensory pathways may represent novel targets for human pharmacology.

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Accepted/In Press date: 22 April 2016
e-pub ahead of print date: 24 May 2016
Published date: October 2016
Organisations: Biomedicine

Identifiers

Local EPrints ID: 402184
URI: http://eprints.soton.ac.uk/id/eprint/402184
DOI: doi:10.1111/acel.12492
ISSN: 1474-9718
PURE UUID: 8c324f59-eb93-4a8a-95cd-759a9574772c
ORCID for Fernando Calahorro Nunez: ORCID iD orcid.org/0000-0003-0659-7728
ORCID for Linda Holden-Dye: ORCID iD orcid.org/0000-0002-9704-1217

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Date deposited: 03 Nov 2016 09:23
Last modified: 16 Mar 2024 02:35

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Contributors

Author: Mark Lucanic
Author: Theo Garrett
Author: Ivan Yu
Author: Fernando Calahorro Nunez ORCID iD
Author: Azar Asadi Shahmirzadi
Author: Aaron Miller
Author: Matthew S. Gill
Author: Robert E. Hughes
Author: Linda Holden-Dye ORCID iD
Author: Gordon J. Lithgow

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