Please use this identifier to cite or link to this item: https://doi.org/10.1002/jcsm.12626
Title: High levels of modified ceramides are a defining feature of murine and human cancer cachexia
Authors: Morigny, P.
Zuber, J.
Haid, M.
Kaltenecker, D.
Riols, F.
Lima, J.D.C.
Simoes, E.
Otoch, J.P.
Schmidt, S.F.
Herzig, S.
Adamski, J. 
Seelaender, M.
Berriel Diaz, M.
Rohm, M.
Keywords: Cancer cachexia
Ceramides
Lipidomics
Signalling lipids
Sphingolipids
Issue Date: 2020
Publisher: Wiley Blackwell
Citation: Morigny, P., Zuber, J., Haid, M., Kaltenecker, D., Riols, F., Lima, J.D.C., Simoes, E., Otoch, J.P., Schmidt, S.F., Herzig, S., Adamski, J., Seelaender, M., Berriel Diaz, M., Rohm, M. (2020). High levels of modified ceramides are a defining feature of murine and human cancer cachexia. Journal of Cachexia, Sarcopenia and Muscle 11 (6) : 1459-1475. ScholarBank@NUS Repository. https://doi.org/10.1002/jcsm.12626
Rights: Attribution-NonCommercial-NoDerivatives 4.0 International
Abstract: Background: Cancer cachexia (CCx) is a multifactorial energy-wasting syndrome reducing the efficiency of anti-cancer therapies, quality of life, and survival of cancer patients. In the past years, most studies focused on the identification of tumour and host-derived proteins contributing to CCx. However, there is still a lack of studies addressing the changes in bioactive lipids. The aim of this study was to identify specific lipid species as a hallmark of CCx by performing a broad range lipid analysis of plasma from well-established CCx mouse models as well as cachectic and weight stable cancer patients. Methods: Plasma from non-cachectic (PBS-injected mice, NC26 tumour-bearing mice), pre-cachectic and cachectic mice (C26 and LLC tumour-bearing mice, ApcMin/+ mutant mice), and plasma from weight stable and cachectic patients with gastrointestinal cancer, were analysed using the Lipidyzer™ platform. In total, 13 lipid classes and more than 1100 lipid species, including sphingolipids, neutral and polar glycerolipids, were covered by the analysis. Correlation analysis between specific lipid species and readouts of CCx were performed. Lipidomics data were confirmed by gene expression analysis of metabolic organs to analyse enzymes involved in sphingolipid synthesis and degradation. Results: A decrease in several lysophosphatidylcholine (LPC) species and an increase in numerous sphingolipids including sphingomyelins (SMs), ceramides (CERs), hexosyl-ceramides (HCERs) and lactosyl-ceramides (LCERs), were mutual features of CCx in both mice and cancer patients. Notably, sphingolipid levels gradually increased during cachexia development. Key enzymes involved in ceramide synthesis were elevated in liver but not in adipose, muscle, or tumour tissues, suggesting that ceramide turnover in the liver is a major contributor to elevated sphingolipid levels in CCx. LPC(16:1), LPC(20:3), SM(16:0), SM(24:1), CER(16:0), CER(24:1), HCER(16:0), and HCER(24:1) were the most consistently affected lipid species between mice and humans and correlated negatively (LPCs) or positively (SMs, CERs and HCERs) with the severity of body weight loss. Conclusions: High levels of sphingolipids, specifically ceramides and modified ceramides, are a defining feature of murine and human CCx and may contribute to tissue wasting and skeletal muscle atrophy through the inhibition of anabolic signals. The progressive increase in sphingolipids during cachexia development supports their potential as early biomarkers for CCx. © 2020 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of Society on Sarcopenia, Cachexia and Wasting Disorders
Source Title: Journal of Cachexia, Sarcopenia and Muscle
URI: https://scholarbank.nus.edu.sg/handle/10635/199004
ISSN: 2190-5991
DOI: 10.1002/jcsm.12626
Rights: Attribution-NonCommercial-NoDerivatives 4.0 International
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