Literature DB >> 26190650

Targeted Induction of Ceramide Degradation Leads to Improved Systemic Metabolism and Reduced Hepatic Steatosis.

Jonathan Y Xia1, William L Holland1, Christine M Kusminski1, Kai Sun1, Ankit X Sharma1, Mackenzie J Pearson1, Angelika J Sifuentes1, Jeffrey G McDonald2, Ruth Gordillo1, Philipp E Scherer1,3.   

Abstract

Sphingolipids have garnered attention for their role in insulin resistance and lipotoxic cell death. We have developed transgenic mice inducibly expressing acid ceramidase that display a reduction in ceramides in adult mouse tissues. Hepatic overexpression of acid ceramidase prevents hepatic steatosis and prompts improvements in insulin action in liver and adipose tissue upon exposure to high-fat diet. Conversely, overexpression of acid ceramidase within adipose tissue also prevents hepatic steatosis and systemic insulin resistance. Induction of ceramidase activity in either tissue promotes a lowering of hepatic ceramides and reduced activation of the ceramide-activated protein kinase C isoform PKCζ, though the induction of ceramidase activity in the adipocyte prompts more rapid resolution of hepatic steatosis than overexpression of the enzyme directly in the liver. Collectively, our observations suggest the existence of a rapidly acting "cross-talk" between liver and adipose tissue sphingolipids, critically regulating glucose metabolism and hepatic lipid uptake.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26190650      PMCID: PMC4527941          DOI: 10.1016/j.cmet.2015.06.007

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  42 in total

1.  Complementary roles of IRS-1 and IRS-2 in the hepatic regulation of metabolism.

Authors:  Cullen M Taniguchi; Kohjiro Ueki; Ronald Kahn
Journal:  J Clin Invest       Date:  2005-03       Impact factor: 14.808

2.  Antisense oligonucleotide reduction of DGAT2 expression improves hepatic steatosis and hyperlipidemia in obese mice.

Authors:  Xing Xian Yu; Susan F Murray; Sanjay K Pandey; Sheri L Booten; Dingjiu Bao; Xiu-Zhen Song; Susan Kelly; Songyuan Chen; Robert McKay; Brett P Monia; Sanjay Bhanot
Journal:  Hepatology       Date:  2005-08       Impact factor: 17.425

3.  Ceramide recruits and activates protein kinase C zeta (PKC zeta) within structured membrane microdomains.

Authors:  Todd E Fox; Kristy L Houck; Sean M O'Neill; Murali Nagarajan; Thomas C Stover; Pawel T Pomianowski; Onur Unal; Jong K Yun; Stanley J Naides; Mark Kester
Journal:  J Biol Chem       Date:  2007-02-17       Impact factor: 5.157

4.  Inhibition of ceramide synthesis ameliorates glucocorticoid-, saturated-fat-, and obesity-induced insulin resistance.

Authors:  William L Holland; Joseph T Brozinick; Li-Ping Wang; Eric D Hawkins; Katherine M Sargent; Yanqi Liu; Krishna Narra; Kyle L Hoehn; Trina A Knotts; Angela Siesky; Don H Nelson; Sotirios K Karathanasis; Greg K Fontenot; Morris J Birnbaum; Scott A Summers
Journal:  Cell Metab       Date:  2007-03       Impact factor: 27.287

5.  Increase of ceramide in the liver and plasma after carbon tetrachloride intoxication in the rat.

Authors:  Ikuyo Ichi; Kayoko Nakahara; Kozue Fujii; Chinatsu Iida; Yayoi Miyashita; Shosuke Kojo
Journal:  J Nutr Sci Vitaminol (Tokyo)       Date:  2007-02       Impact factor: 2.000

6.  Blocking VLDL secretion causes hepatic steatosis but does not affect peripheral lipid stores or insulin sensitivity in mice.

Authors:  Kaori Minehira; Stephen G Young; Claudio J Villanueva; Laxman Yetukuri; Matej Oresic; Mark K Hellerstein; Robert V Farese; Jay D Horton; Frederic Preitner; Bernard Thorens; Luc Tappy
Journal:  J Lipid Res       Date:  2008-06-01       Impact factor: 5.922

7.  Lipid profiling of FPLC-separated lipoprotein fractions by electrospray ionization tandem mass spectrometry.

Authors:  Philipp Wiesner; Katharina Leidl; Alfred Boettcher; Gerd Schmitz; Gerhard Liebisch
Journal:  J Lipid Res       Date:  2008-10-01       Impact factor: 5.922

8.  Dissociation of hepatic steatosis and insulin resistance in mice overexpressing DGAT in the liver.

Authors:  Mara Monetti; Malin C Levin; Matthew J Watt; Mini P Sajan; Stephen Marmor; Brian K Hubbard; Robert D Stevens; James R Bain; Christopher B Newgard; Robert V Farese; Andrea L Hevener; Robert V Farese
Journal:  Cell Metab       Date:  2007-07       Impact factor: 27.287

9.  Bioinformatics strategies for lipidomics analysis: characterization of obesity related hepatic steatosis.

Authors:  Laxman Yetukuri; Mikko Katajamaa; Gema Medina-Gomez; Tuulikki Seppänen-Laakso; Antonio Vidal-Puig; Matej Oresic
Journal:  BMC Syst Biol       Date:  2007-02-15

10.  Plasma ceramides are elevated in obese subjects with type 2 diabetes and correlate with the severity of insulin resistance.

Authors:  Jacob M Haus; Sangeeta R Kashyap; Takhar Kasumov; Renliang Zhang; Karen R Kelly; Ralph A Defronzo; John P Kirwan
Journal:  Diabetes       Date:  2008-11-13       Impact factor: 9.461
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  136 in total

1.  BMI-related progression of atypical PKC-dependent aberrations in insulin signaling through IRS-1, Akt, FoxO1 and PGC-1α in livers of obese and type 2 diabetic humans.

Authors:  Mini P Sajan; Robert A Ivey; Robert V Farese
Journal:  Metabolism       Date:  2015-08-24       Impact factor: 8.694

Review 2.  An Intestinal Microbiota-Farnesoid X Receptor Axis Modulates Metabolic Disease.

Authors:  Frank J Gonzalez; Changtao Jiang; Andrew D Patterson
Journal:  Gastroenterology       Date:  2016-09-14       Impact factor: 22.682

Review 3.  Adiponectin, Leptin, and Fatty Acids in the Maintenance of Metabolic Homeostasis through Adipose Tissue Crosstalk.

Authors:  Jennifer H Stern; Joseph M Rutkowski; Philipp E Scherer
Journal:  Cell Metab       Date:  2016-05-10       Impact factor: 27.287

4.  Suppressing the intestinal farnesoid X receptor/sphingomyelin phosphodiesterase 3 axis decreases atherosclerosis.

Authors:  Qing Wu; Lulu Sun; Xiaomin Hu; Xuemei Wang; Feng Xu; Bo Chen; Xianyi Liang; Jialin Xia; Pengcheng Wang; Daisuke Aibara; Shaofei Zhang; Guangyi Zeng; Chuyu Yun; Yu Yan; Yicheng Zhu; Michael Bustin; Shuyang Zhang; Frank J Gonzalez; Changtao Jiang
Journal:  J Clin Invest       Date:  2021-05-03       Impact factor: 14.808

Review 5.  Beyond adiponectin and leptin: adipose tissue-derived mediators of inter-organ communication.

Authors:  Jan-Bernd Funcke; Philipp E Scherer
Journal:  J Lipid Res       Date:  2019-06-17       Impact factor: 5.922

6.  A Lipidomics Approach to Assess the Association Between Plasma Sphingolipids and Verbal Memory Performance in Coronary Artery Disease Patients Undertaking Cardiac Rehabilitation: A C18:0 Signature for Cognitive Response to Exercise.

Authors:  Mahwesh Saleem; Nathan Herrmann; Adam Dinoff; Michelle M Mielke; Paul I Oh; Prathiba Shammi; Xingshan Cao; Swarajya Lakshmi Vattem Venkata; Norman J Haughey; Krista L Lanctôt
Journal:  J Alzheimers Dis       Date:  2017       Impact factor: 4.472

Review 7.  The many secret lives of adipocytes: implications for diabetes.

Authors:  Philipp E Scherer
Journal:  Diabetologia       Date:  2018-11-21       Impact factor: 10.122

8.  Adiponectin and related C1q/TNF-related proteins bind selectively to anionic phospholipids and sphingolipids.

Authors:  Jessica J Ye; Xin Bian; Jaechul Lim; Ruslan Medzhitov
Journal:  Proc Natl Acad Sci U S A       Date:  2020-07-06       Impact factor: 11.205

9.  An ANGPTL4-ceramide-protein kinase Cζ axis mediates chronic glucocorticoid exposure-induced hepatic steatosis and hypertriglyceridemia in mice.

Authors:  Tzu-Chieh Chen; Rebecca A Lee; Sam L Tsai; Deepthi Kanamaluru; Nora E Gray; Nicholas Yiv; Rachel T Cheang; Jenna H Tan; Justin Y Lee; Mark D Fitch; Marc K Hellerstein; Jen-Chywan Wang
Journal:  J Biol Chem       Date:  2019-05-03       Impact factor: 5.157

Review 10.  The role of ceramides in metabolic disorders: when size and localization matters.

Authors:  Sarah M Turpin-Nolan; Jens C Brüning
Journal:  Nat Rev Endocrinol       Date:  2020-02-14       Impact factor: 43.330
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