Small Molecule from Natural Phytochemical Mimics Dietary Restriction by Modulating FoxO3a and Metabolic Reprogramming

Juewon Kim; Shin Hae Lee; Miook Cho; Jee Young Lee; Dong Hwa Choi; Hye Yeon Lee; Siyoung Cho; Kyung Jin Min; Yousin Suh

doi:10.1002/adbi.201900248

Small Molecule from Natural Phytochemical Mimics Dietary Restriction by Modulating FoxO3a and Metabolic Reprogramming

Juewon Kim, Shin Hae Lee, Miook Cho, Jee Young Lee, Dong Hwa Choi, Hye Yeon Lee, Siyoung Cho, Kyung Jin Min, Yousin Suh

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Many studies utilizing animal models have revealed the genetic and pharmacogenetic modulators of the rate of organismal aging. However, finding routes for healthy aging during extended life remains one of the largest questions. With regards to an antiaging reagent, it has been shown that natural phytochemical syringaresinol (SYR) delays cellular senescence by activating sirtuin1 (SIRT1). Here, it is found that SYR treatment results in metabolic changes similar to those observed during dietary restriction (DR). The DR mimetic effects are mediated by FoxO3a-dependent SIRT1 activation and insulin/insuline growth factor-1 signaling modulation. The direct binding of SYR-FoxO3a is identified and this could partially explain the DR-like phenotype. The report gives a clue as to how the longevity gene involves the DR pathway and suggests that natural phytochemicals applied as a geroprotector mimics DR effects.

Original language	English
Article number	1900248
Journal	Advanced Biosystems
Volume	4
Issue number	7
DOIs	https://doi.org/10.1002/adbi.201900248
State	Published - 1 Jul 2020

Bibliographical note

Publisher Copyright:
© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

Keywords

FoxO3a
dietary restriction
direct binding
metabolomics
oxidative stress
syringaresinol

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10.1002/adbi.201900248

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title = "Small Molecule from Natural Phytochemical Mimics Dietary Restriction by Modulating FoxO3a and Metabolic Reprogramming",

abstract = "Many studies utilizing animal models have revealed the genetic and pharmacogenetic modulators of the rate of organismal aging. However, finding routes for healthy aging during extended life remains one of the largest questions. With regards to an antiaging reagent, it has been shown that natural phytochemical syringaresinol (SYR) delays cellular senescence by activating sirtuin1 (SIRT1). Here, it is found that SYR treatment results in metabolic changes similar to those observed during dietary restriction (DR). The DR mimetic effects are mediated by FoxO3a-dependent SIRT1 activation and insulin/insuline growth factor-1 signaling modulation. The direct binding of SYR-FoxO3a is identified and this could partially explain the DR-like phenotype. The report gives a clue as to how the longevity gene involves the DR pathway and suggests that natural phytochemicals applied as a geroprotector mimics DR effects.",

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author = "Juewon Kim and Lee, {Shin Hae} and Miook Cho and Lee, {Jee Young} and Choi, {Dong Hwa} and Lee, {Hye Yeon} and Siyoung Cho and Min, {Kyung Jin} and Yousin Suh",

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AU - Lee, Shin Hae

AU - Cho, Miook

AU - Lee, Jee Young

AU - Choi, Dong Hwa

AU - Lee, Hye Yeon

AU - Cho, Siyoung

AU - Min, Kyung Jin

AU - Suh, Yousin

PY - 2020/7/1

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N2 - Many studies utilizing animal models have revealed the genetic and pharmacogenetic modulators of the rate of organismal aging. However, finding routes for healthy aging during extended life remains one of the largest questions. With regards to an antiaging reagent, it has been shown that natural phytochemical syringaresinol (SYR) delays cellular senescence by activating sirtuin1 (SIRT1). Here, it is found that SYR treatment results in metabolic changes similar to those observed during dietary restriction (DR). The DR mimetic effects are mediated by FoxO3a-dependent SIRT1 activation and insulin/insuline growth factor-1 signaling modulation. The direct binding of SYR-FoxO3a is identified and this could partially explain the DR-like phenotype. The report gives a clue as to how the longevity gene involves the DR pathway and suggests that natural phytochemicals applied as a geroprotector mimics DR effects.

AB - Many studies utilizing animal models have revealed the genetic and pharmacogenetic modulators of the rate of organismal aging. However, finding routes for healthy aging during extended life remains one of the largest questions. With regards to an antiaging reagent, it has been shown that natural phytochemical syringaresinol (SYR) delays cellular senescence by activating sirtuin1 (SIRT1). Here, it is found that SYR treatment results in metabolic changes similar to those observed during dietary restriction (DR). The DR mimetic effects are mediated by FoxO3a-dependent SIRT1 activation and insulin/insuline growth factor-1 signaling modulation. The direct binding of SYR-FoxO3a is identified and this could partially explain the DR-like phenotype. The report gives a clue as to how the longevity gene involves the DR pathway and suggests that natural phytochemicals applied as a geroprotector mimics DR effects.

KW - FoxO3a

KW - dietary restriction

KW - direct binding

KW - metabolomics

KW - oxidative stress

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Small Molecule from Natural Phytochemical Mimics Dietary Restriction by Modulating FoxO3a and Metabolic Reprogramming

Abstract

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Keywords

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