Metabolomics analysis uncovers that dietary restriction buffers metabolic changes associated with aging in Caenorhabditis elegans
Metabolomics analysis uncovers that dietary restriction buffers metabolic changes associated with aging in Caenorhabditis elegans
Dietary restriction (DR) is one of the most universal means of extending lifespan. Yet, whether and how DR specifically affects the metabolic changes associated with aging is essentially unknown. Here, we present a comprehensive and unbiased picture of the metabolic variations that take place with age at the whole organism level in Caenorhabditis elegans by using (1)H high-resolution magic-angle spinning (HR-MAS) nuclear magnetic resonance (NMR) analysis of intact worms. We investigate metabolic variations potentially important for lifespan regulation by comparing the metabolic fingerprint of two previously described genetic models of DR, the long-lived eat-2(ad465) and slcf-1(tm2258) worms, as single mutants or in combination with a genetic suppressor of their lifespan phenotype. Our analysis shows that significant changes in metabolite profiles precede the major physiological decline that accompanies aging and that DR protects from some of those metabolic changes. More specifically, low phosphocholine (PCho) correlates with high life expectancy. A mutation in the tumor suppressor gene PTEN/DAF-18, which suppresses the beneficial effects of DR in both C. elegans and mammals, increases both PCho level and choline kinase expression. Furthermore, we show that choline kinase function in the intestine can regulate lifespan. This study highlights the relevance of NMR metabolomic approaches for identifying potential biomarkers of aging.
2910-2919
Pontoizeau, Clément
9569a8e3-0761-4e29-90e0-d9d1d33ddbec
Mouchiroud, Laurent
4495bc23-51a4-4194-b632-a68e2e68d2ca
Molin, Laurent
d5b2179d-0dec-4b92-8ee0-75efa8e5760c
Mergoud-Dit-Lamarche, Adeline
faae648c-9c06-4ced-b42a-caebb3aa5da4
Dallière, Nicolas
fbefe788-fe69-48fe-8b07-efe4e78b9161
Toulhoat, Pierre
e8031502-c7dd-4ec3-9933-c0bfa436317f
Elena-Herrmann, Bénédicte
01b6650c-c065-4d10-8ad5-b9409f71d026
Solari, Florence
8bd42861-08ee-488a-82b9-6d0f363da4aa
6 June 2014
Pontoizeau, Clément
9569a8e3-0761-4e29-90e0-d9d1d33ddbec
Mouchiroud, Laurent
4495bc23-51a4-4194-b632-a68e2e68d2ca
Molin, Laurent
d5b2179d-0dec-4b92-8ee0-75efa8e5760c
Mergoud-Dit-Lamarche, Adeline
faae648c-9c06-4ced-b42a-caebb3aa5da4
Dallière, Nicolas
fbefe788-fe69-48fe-8b07-efe4e78b9161
Toulhoat, Pierre
e8031502-c7dd-4ec3-9933-c0bfa436317f
Elena-Herrmann, Bénédicte
01b6650c-c065-4d10-8ad5-b9409f71d026
Solari, Florence
8bd42861-08ee-488a-82b9-6d0f363da4aa
Pontoizeau, Clément, Mouchiroud, Laurent, Molin, Laurent, Mergoud-Dit-Lamarche, Adeline, Dallière, Nicolas, Toulhoat, Pierre, Elena-Herrmann, Bénédicte and Solari, Florence
(2014)
Metabolomics analysis uncovers that dietary restriction buffers metabolic changes associated with aging in Caenorhabditis elegans.
Journal of Proteome Research, 13 (6), .
(doi:10.1021/pr5000686).
(PMID:24819046)
Abstract
Dietary restriction (DR) is one of the most universal means of extending lifespan. Yet, whether and how DR specifically affects the metabolic changes associated with aging is essentially unknown. Here, we present a comprehensive and unbiased picture of the metabolic variations that take place with age at the whole organism level in Caenorhabditis elegans by using (1)H high-resolution magic-angle spinning (HR-MAS) nuclear magnetic resonance (NMR) analysis of intact worms. We investigate metabolic variations potentially important for lifespan regulation by comparing the metabolic fingerprint of two previously described genetic models of DR, the long-lived eat-2(ad465) and slcf-1(tm2258) worms, as single mutants or in combination with a genetic suppressor of their lifespan phenotype. Our analysis shows that significant changes in metabolite profiles precede the major physiological decline that accompanies aging and that DR protects from some of those metabolic changes. More specifically, low phosphocholine (PCho) correlates with high life expectancy. A mutation in the tumor suppressor gene PTEN/DAF-18, which suppresses the beneficial effects of DR in both C. elegans and mammals, increases both PCho level and choline kinase expression. Furthermore, we show that choline kinase function in the intestine can regulate lifespan. This study highlights the relevance of NMR metabolomic approaches for identifying potential biomarkers of aging.
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e-pub ahead of print date: 22 May 2014
Published date: 6 June 2014
Organisations:
Faculty of Health Sciences
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Local EPrints ID: 365688
URI: http://eprints.soton.ac.uk/id/eprint/365688
ISSN: 1535-3893
PURE UUID: 817fa8cf-d236-43fd-b771-dd1317363347
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Date deposited: 17 Jun 2014 09:46
Last modified: 14 Mar 2024 17:00
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Author:
Clément Pontoizeau
Author:
Laurent Mouchiroud
Author:
Laurent Molin
Author:
Adeline Mergoud-Dit-Lamarche
Author:
Nicolas Dallière
Author:
Pierre Toulhoat
Author:
Bénédicte Elena-Herrmann
Author:
Florence Solari
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