TSC22D4 is a molecular output of hepatic wasting metabolism

Allan Jones; Kilian Friedrich; Maria Rohm; Michaela Schäfer; Carolyn Algire; Philipp Kulozik; Oksana Seibert; Karin Müller-Decker; Tjeerd Sijmonsma; Daniela Strzoda; Carsten Sticht; Norbert Gretz; Geesje M. Dallinga-Thie; Barbara Leuchs; Manfred Kögl; Wolfgang Stremmel; Mauricio Berriel Diaz; Stephan Herzig

doi:10.1002/emmm.201201869

TSC22D4 is a molecular output of hepatic wasting metabolism

Allan Jones, Kilian Friedrich, Maria Rohm, Michaela Schäfer, Carolyn Algire, Philipp Kulozik, Oksana Seibert, Karin Müller-Decker, Tjeerd Sijmonsma, Daniela Strzoda, Carsten Sticht, Norbert Gretz, Geesje M. Dallinga-Thie, Barbara Leuchs, Manfred Kögl, Wolfgang Stremmel, Mauricio Berriel Diaz, Stephan Herzig

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

51 Scopus citations

Abstract

In mammals, proper storage and distribution of lipids in and between tissues is essential for the maintenance of energy homeostasis. Here, we show that tumour growth triggers hepatic metabolic dysfunction as part of the cancer cachectic phenotype, particularly by reduced hepatic very-low-density-lipoprotein (VLDL) secretion and hypobetalipoproteinemia. As a molecular cachexia output pathway, hepatic levels of the transcription factor transforming growth factor beta 1-stimulated clone (TSC) 22 D4 were increased in cancer cachexia. Mimicking high cachectic levels of TSC22D4 in healthy livers led to the inhibition of hepatic VLDL release and lipogenic genes, and diminished systemic VLDL levels under both normal and high fat dietary conditions. Liver-specific ablation of TSC22D4 triggered hypertriglyceridemia through the induction of hepatic VLDL secretion. Furthermore, hepatic TSC22D4 expression levels were correlated with the degree of body weight loss and VLDL hypo-secretion in cancer cachexia, and TSC22D4 deficiency rescued tumour cell-induced metabolic dysfunction in hepatocytes. Therefore, hepatic TSC22D4 activity may represent a molecular rationale for peripheral energy deprivation in subjects with metabolic wasting diseases, including cancer cachexia. Specific molecular programs in the liver significantly impact overall systemic energy availability and thereby further promote an energy-deficient state in response to tumour development.

Original language	English
Pages (from-to)	294-308
Number of pages	15
Journal	EMBO Molecular Medicine
Volume	5
Issue number	2
DOIs	https://doi.org/10.1002/emmm.201201869
State	Published - Feb 2013
Externally published	Yes

Keywords

Cancer cachexia
Lipid metabolism
Liver
TSC22D4
Transcription

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/emmm.201201869

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Jones, A., Friedrich, K., Rohm, M., Schäfer, M., Algire, C., Kulozik, P., Seibert, O., Müller-Decker, K., Sijmonsma, T., Strzoda, D., Sticht, C., Gretz, N., Dallinga-Thie, G. M., Leuchs, B., Kögl, M., Stremmel, W., Diaz, M. B., & Herzig, S. (2013). TSC22D4 is a molecular output of hepatic wasting metabolism. EMBO Molecular Medicine, 5(2), 294-308. https://doi.org/10.1002/emmm.201201869

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title = "TSC22D4 is a molecular output of hepatic wasting metabolism",

abstract = "In mammals, proper storage and distribution of lipids in and between tissues is essential for the maintenance of energy homeostasis. Here, we show that tumour growth triggers hepatic metabolic dysfunction as part of the cancer cachectic phenotype, particularly by reduced hepatic very-low-density-lipoprotein (VLDL) secretion and hypobetalipoproteinemia. As a molecular cachexia output pathway, hepatic levels of the transcription factor transforming growth factor beta 1-stimulated clone (TSC) 22 D4 were increased in cancer cachexia. Mimicking high cachectic levels of TSC22D4 in healthy livers led to the inhibition of hepatic VLDL release and lipogenic genes, and diminished systemic VLDL levels under both normal and high fat dietary conditions. Liver-specific ablation of TSC22D4 triggered hypertriglyceridemia through the induction of hepatic VLDL secretion. Furthermore, hepatic TSC22D4 expression levels were correlated with the degree of body weight loss and VLDL hypo-secretion in cancer cachexia, and TSC22D4 deficiency rescued tumour cell-induced metabolic dysfunction in hepatocytes. Therefore, hepatic TSC22D4 activity may represent a molecular rationale for peripheral energy deprivation in subjects with metabolic wasting diseases, including cancer cachexia. Specific molecular programs in the liver significantly impact overall systemic energy availability and thereby further promote an energy-deficient state in response to tumour development.",

keywords = "Cancer cachexia, Lipid metabolism, Liver, TSC22D4, Transcription",

author = "Allan Jones and Kilian Friedrich and Maria Rohm and Michaela Sch{\"a}fer and Carolyn Algire and Philipp Kulozik and Oksana Seibert and Karin M{\"u}ller-Decker and Tjeerd Sijmonsma and Daniela Strzoda and Carsten Sticht and Norbert Gretz and Dallinga-Thie, {Geesje M.} and Barbara Leuchs and Manfred K{\"o}gl and Wolfgang Stremmel and Diaz, {Mauricio Berriel} and Stephan Herzig",

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doi = "10.1002/emmm.201201869",

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Jones, A, Friedrich, K, Rohm, M, Schäfer, M, Algire, C, Kulozik, P, Seibert, O, Müller-Decker, K, Sijmonsma, T, Strzoda, D, Sticht, C, Gretz, N, Dallinga-Thie, GM, Leuchs, B, Kögl, M, Stremmel, W, Diaz, MB & Herzig, S 2013, 'TSC22D4 is a molecular output of hepatic wasting metabolism', EMBO Molecular Medicine, vol. 5, no. 2, pp. 294-308. https://doi.org/10.1002/emmm.201201869

TY - JOUR

T1 - TSC22D4 is a molecular output of hepatic wasting metabolism

AU - Jones, Allan

AU - Friedrich, Kilian

AU - Rohm, Maria

AU - Schäfer, Michaela

AU - Algire, Carolyn

AU - Kulozik, Philipp

AU - Seibert, Oksana

AU - Müller-Decker, Karin

AU - Sijmonsma, Tjeerd

AU - Strzoda, Daniela

AU - Sticht, Carsten

AU - Gretz, Norbert

AU - Dallinga-Thie, Geesje M.

AU - Leuchs, Barbara

AU - Kögl, Manfred

AU - Stremmel, Wolfgang

AU - Diaz, Mauricio Berriel

AU - Herzig, Stephan

PY - 2013/2

Y1 - 2013/2

N2 - In mammals, proper storage and distribution of lipids in and between tissues is essential for the maintenance of energy homeostasis. Here, we show that tumour growth triggers hepatic metabolic dysfunction as part of the cancer cachectic phenotype, particularly by reduced hepatic very-low-density-lipoprotein (VLDL) secretion and hypobetalipoproteinemia. As a molecular cachexia output pathway, hepatic levels of the transcription factor transforming growth factor beta 1-stimulated clone (TSC) 22 D4 were increased in cancer cachexia. Mimicking high cachectic levels of TSC22D4 in healthy livers led to the inhibition of hepatic VLDL release and lipogenic genes, and diminished systemic VLDL levels under both normal and high fat dietary conditions. Liver-specific ablation of TSC22D4 triggered hypertriglyceridemia through the induction of hepatic VLDL secretion. Furthermore, hepatic TSC22D4 expression levels were correlated with the degree of body weight loss and VLDL hypo-secretion in cancer cachexia, and TSC22D4 deficiency rescued tumour cell-induced metabolic dysfunction in hepatocytes. Therefore, hepatic TSC22D4 activity may represent a molecular rationale for peripheral energy deprivation in subjects with metabolic wasting diseases, including cancer cachexia. Specific molecular programs in the liver significantly impact overall systemic energy availability and thereby further promote an energy-deficient state in response to tumour development.

AB - In mammals, proper storage and distribution of lipids in and between tissues is essential for the maintenance of energy homeostasis. Here, we show that tumour growth triggers hepatic metabolic dysfunction as part of the cancer cachectic phenotype, particularly by reduced hepatic very-low-density-lipoprotein (VLDL) secretion and hypobetalipoproteinemia. As a molecular cachexia output pathway, hepatic levels of the transcription factor transforming growth factor beta 1-stimulated clone (TSC) 22 D4 were increased in cancer cachexia. Mimicking high cachectic levels of TSC22D4 in healthy livers led to the inhibition of hepatic VLDL release and lipogenic genes, and diminished systemic VLDL levels under both normal and high fat dietary conditions. Liver-specific ablation of TSC22D4 triggered hypertriglyceridemia through the induction of hepatic VLDL secretion. Furthermore, hepatic TSC22D4 expression levels were correlated with the degree of body weight loss and VLDL hypo-secretion in cancer cachexia, and TSC22D4 deficiency rescued tumour cell-induced metabolic dysfunction in hepatocytes. Therefore, hepatic TSC22D4 activity may represent a molecular rationale for peripheral energy deprivation in subjects with metabolic wasting diseases, including cancer cachexia. Specific molecular programs in the liver significantly impact overall systemic energy availability and thereby further promote an energy-deficient state in response to tumour development.

KW - Cancer cachexia

KW - Lipid metabolism

KW - Liver

KW - TSC22D4

KW - Transcription

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U2 - 10.1002/emmm.201201869

DO - 10.1002/emmm.201201869

M3 - Article

C2 - 23307490

AN - SCOPUS:84873295485

SN - 1757-4676

VL - 5

SP - 294

EP - 308

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 2

ER -

TSC22D4 is a molecular output of hepatic wasting metabolism

Abstract

Keywords

UN SDGs

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