Targeting protein synthesis in a Myc/mTOR-driven model of anorexia-cachexia syndrome delays its onset and prolongs survival

Francis Robert; John R. Mills; Aouod Agenor; Dantong Wang; Sergio DiMarco; Regina Cencic; Michel L. Tremblay; Imed Eddine Gallouzi; Siegfried Hekimi; Simon S. Wing; Jerry Pelletier

doi:10.1158/0008-5472.CAN-11-2739

Targeting protein synthesis in a Myc/mTOR-driven model of anorexia-cachexia syndrome delays its onset and prolongs survival

Francis Robert, John R. Mills, Aouod Agenor, Dantong Wang, Sergio DiMarco, Regina Cencic, Michel L. Tremblay, Imed Eddine Gallouzi, Siegfried Hekimi, Simon S. Wing, Jerry Pelletier

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

32 Scopus citations

Abstract

Anorexia-cachexia syndrome (ACS) is a major determinant of cancer-related death that causes progressive body weight loss due to depletion of skeletal muscle mass and body fat. Here, we report the development of a novel preclinical murine model of ACS in which lymphomas harbor elevated Myc and activated mTOR signaling. The ACS phenotype in this model correlated with deregulated expression of a number of cytokines, including elevated levels of interleukin-10 which was under the direct translational control of mTOR. Notably, pharmacologic intervention to impair protein synthesis restored cytokine production to near-normal levels, delayed ACS progression, and extended host survival. Together, our findings suggest a new paradigm to treat ACS by strategies which target protein synthesis to block the production of procachexic factors. ©2011 AACR.

Original language	English (US)
Pages (from-to)	747-756
Number of pages	10
Journal	Cancer Research
Volume	72
Issue number	3
DOIs	https://doi.org/10.1158/0008-5472.CAN-11-2739
State	Published - Feb 1 2012
Externally published	Yes

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title = "Targeting protein synthesis in a Myc/mTOR-driven model of anorexia-cachexia syndrome delays its onset and prolongs survival",

abstract = "Anorexia-cachexia syndrome (ACS) is a major determinant of cancer-related death that causes progressive body weight loss due to depletion of skeletal muscle mass and body fat. Here, we report the development of a novel preclinical murine model of ACS in which lymphomas harbor elevated Myc and activated mTOR signaling. The ACS phenotype in this model correlated with deregulated expression of a number of cytokines, including elevated levels of interleukin-10 which was under the direct translational control of mTOR. Notably, pharmacologic intervention to impair protein synthesis restored cytokine production to near-normal levels, delayed ACS progression, and extended host survival. Together, our findings suggest a new paradigm to treat ACS by strategies which target protein synthesis to block the production of procachexic factors. {\textcopyright}2011 AACR.",

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AU - Robert, Francis

AU - Mills, John R.

AU - Agenor, Aouod

AU - Wang, Dantong

AU - DiMarco, Sergio

AU - Cencic, Regina

AU - Tremblay, Michel L.

AU - Gallouzi, Imed Eddine

AU - Hekimi, Siegfried

AU - Wing, Simon S.

AU - Pelletier, Jerry

N1 - Generated from Scopus record by KAUST IRTS on 2022-09-13

PY - 2012/2/1

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N2 - Anorexia-cachexia syndrome (ACS) is a major determinant of cancer-related death that causes progressive body weight loss due to depletion of skeletal muscle mass and body fat. Here, we report the development of a novel preclinical murine model of ACS in which lymphomas harbor elevated Myc and activated mTOR signaling. The ACS phenotype in this model correlated with deregulated expression of a number of cytokines, including elevated levels of interleukin-10 which was under the direct translational control of mTOR. Notably, pharmacologic intervention to impair protein synthesis restored cytokine production to near-normal levels, delayed ACS progression, and extended host survival. Together, our findings suggest a new paradigm to treat ACS by strategies which target protein synthesis to block the production of procachexic factors. ©2011 AACR.

AB - Anorexia-cachexia syndrome (ACS) is a major determinant of cancer-related death that causes progressive body weight loss due to depletion of skeletal muscle mass and body fat. Here, we report the development of a novel preclinical murine model of ACS in which lymphomas harbor elevated Myc and activated mTOR signaling. The ACS phenotype in this model correlated with deregulated expression of a number of cytokines, including elevated levels of interleukin-10 which was under the direct translational control of mTOR. Notably, pharmacologic intervention to impair protein synthesis restored cytokine production to near-normal levels, delayed ACS progression, and extended host survival. Together, our findings suggest a new paradigm to treat ACS by strategies which target protein synthesis to block the production of procachexic factors. ©2011 AACR.

UR - https://aacrjournals.org/cancerres/article/72/3/747/577568/Targeting-Protein-Synthesis-in-a-Myc-mTOR-Driven

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DO - 10.1158/0008-5472.CAN-11-2739

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VL - 72

SP - 747

EP - 756

JO - Journal of Cancer Research

JF - Journal of Cancer Research

IS - 3

ER -

Targeting protein synthesis in a Myc/mTOR-driven model of anorexia-cachexia syndrome delays its onset and prolongs survival

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