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Literature DB >> 18318442

Loss of the glycine N-methyltransferase gene leads to steatosis and hepatocellular carcinoma in mice.

M Luz Martínez-Chantar¹, Mercedes Vázquez-Chantada, Usue Ariz, Nuria Martínez, Marta Varela, Zigmund Luka, Antonieta Capdevila, Juan Rodríguez, Ana M Aransay, Rune Matthiesen, Heping Yang, Diego F Calvisi, Manel Esteller, Mario Fraga, Shelly C Lu, Conrad Wagner, José M Mato.

Abstract

UNLABELLED: Glycine N-methyltransferase (GNMT) is the main enzyme responsible for catabolism of excess hepatic S-adenosylmethionine (SAMe). GNMT is absent in hepatocellular carcinoma (HCC), messenger RNA (mRNA) levels are significantly lower in livers of patients at risk of developing HCC, and GNMT has been proposed to be a tumor-susceptibility gene for liver cancer. The identification of several children with liver disease as having mutations of the GNMT gene further suggests that this enzyme plays an important role in liver function. In the current study we studied development of liver pathologies including HCC in GNMT-knockout (GNMT-KO) mice. GNMT-KO mice have elevated serum aminotransferase, methionine, and SAMe levels and develop liver steatosis, fibrosis, and HCC. We found that activation of the Ras and Janus kinase (JAK)/signal transducer and activator of transcription (STAT) pathways was increased in liver tumors from GNMT-KO mice coincidently with the suppression of the Ras inhibitors Ras-association domain family/tumor suppressor (RASSF) 1 and 4 and the JAK/STAT inhibitors suppressor of cytokine signaling (SOCS) 1-3 and cytokine-inducible SH2-protein. Finally, we found that methylation of RASSF1 and SOCS2 promoters and the binding of trimethylated lysine 27 in histone 3 to these 2 genes was increased in HCC from GNMT-KO mice.
CONCLUSION: These data demonstrate that loss of GNMT induces aberrant methylation of DNA and histones, resulting in epigenetic modulation of critical carcinogenic pathways in mice.

Entities: Chemical Disease Gene Species

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Year: 2008 PMID： 18318442 PMCID： PMC2405897 DOI： 10.1002/hep.22159

Source DB: PubMed Journal: Hepatology ISSN： 0270-9139 Impact factor: 17.425

29 in total

1. High-performance capillary electrophoretic method for the quantification of 5-methyl 2'-deoxycytidine in genomic DNA: application to plant, animal and human cancer tissues.

Authors: Mario F Fraga; Esther Uriol; L Borja Diego; María Berdasco; Manel Esteller; María Jesús Cañal; Roberto Rodríguez
Journal: Electrophoresis Date: 2002-06 Impact factor: 3.535

2. Protooncogene methylation and expression in regenerating liver and preneoplastic liver nodules induced in the rat by diethylnitrosamine: effect of variations of S-adenosylmethionine:S-adenosylhomocysteine ratio.

Authors: R Garcea; L Daino; R Pascale; M M Simile; M Puddu; M E Ruggiu; M A Seddaiu; G Satta; M J Sequenza; F Feo
Journal: Carcinogenesis Date: 1989-07 Impact factor: 4.944

3. All-trans-retinoic acid rapidly induces glycine N-methyltransferase in a dose-dependent manner and reduces circulating methionine and homocysteine levels in rats.

Authors: Marlies K Ozias; Kevin L Schalinske
Journal: J Nutr Date: 2003-12 Impact factor: 4.798

4. Glycine N -methyltransferase deficiency: a new patient with a novel mutation.

Authors: P Augoustides-Savvopoulou; Z Luka; S Karyda; S P Stabler; R H Allen; K Patsiaoura; C Wagner; S H Mudd
Journal: J Inherit Metab Dis Date: 2003 Impact factor: 4.982

5. Aberrant promoter methylation profiles of tumor suppressor genes in hepatocellular carcinoma.

Authors: Bin Yang; Mingzhou Guo; James G Herman; Douglas P Clark
Journal: Am J Pathol Date: 2003-09 Impact factor: 4.307

6. Homocysteine-betaine interactions in a murine model of 5,10-methylenetetrahydrofolate reductase deficiency.

Authors: Bernd C Schwahn; Zhoutao Chen; Maurice D Laryea; Udo Wendel; Suzanne Lussier-Cacan; Jacques Genest; Mei-Heng Mar; Steven H Zeisel; Carmen Castro; Timothy Garrow; Rima Rozen
Journal: FASEB J Date: 2003-01-22 Impact factor: 5.191

7. Glycine N-methyltransferase tumor susceptibility gene in the benzo(a)pyrene-detoxification pathway.

Authors: Shih-Yin Chen; Jane-Ru Vivan Lin; Ramalakshmi Darbha; Pinpin Lin; Tsung-Yun Liu; Yi-Ming Arthur Chen
Journal: Cancer Res Date: 2004-05-15 Impact factor: 12.701

8. Methylation-mediated silencing of SOCS-1 gene in hepatocellular carcinoma derived from cirrhosis.

Authors: Osamu Okochi; Kenji Hibi; Mitsuru Sakai; Soichiro Inoue; Shin Takeda; Tetsuya Kaneko; Akimasa Nakao
Journal: Clin Cancer Res Date: 2003-11-01 Impact factor: 12.531

9. Purification and properties of glycine N-methyltransferase from rat liver.

Authors: H Ogawa; M Fujioka
Journal: J Biol Chem Date: 1982-04-10 Impact factor: 5.157

10. Spontaneous oxidative stress and liver tumors in mice lacking methionine adenosyltransferase 1A.

Authors: Maria L Martínez-Chantar; Fernando J Corrales; L Alfonso Martínez-Cruz; Elena R García-Trevijano; Zong-Zhi Huang; Lixin Chen; Gary Kanel; Matías A Avila; José M Mato; Shelly C Lu
Journal: FASEB J Date: 2002-06-07 Impact factor: 5.191

137 in total

Review 1. SAMe and HuR in liver physiology: usefulness of stem cells in hepatic differentiation research.

Authors: Laura Gomez-Santos; Mercedes Vazquez-Chantada; Jose Maria Mato; Maria Luz Martinez-Chantar
Journal: Methods Mol Biol Date: 2012

2. Functional characterization of glycine N-methyltransferase and its interactive protein DEPDC6/DEPTOR in hepatocellular carcinoma.

Authors: Chia-Hung Yen; Yao-Cheng Lu; Chung-Hsien Li; Cheng-Ming Lee; Chia-Yen Chen; Ming-Yuan Cheng; Shiu-Feng Huang; Kuen-Feng Chen; Ann-Lii Cheng; Li-Ying Liao; Yan-Hwa Wu Lee; Yi-Ming Arthur Chen
Journal: Mol Med Date: 2012-03-30 Impact factor: 6.354

3. Candidate biomarkers in exosome-like vesicles purified from rat and mouse urine samples.

Authors: Javier Conde-Vancells; Eva Rodriguez-Suarez; Esperanza Gonzalez; Agustin Berisa; David Gil; Nieves Embade; Mikel Valle; Zigmund Luka; Felix Elortza; Conrad Wagner; Shelly C Lu; Jose M Mato; M Falcon-Perez
Journal: Proteomics Clin Appl Date: 2010-04 Impact factor: 3.494

4. Hepatoma cells from mice deficient in glycine N-methyltransferase have increased RAS signaling and activation of liver kinase B1.

Authors: Nuria Martínez-López; Juan L García-Rodríguez; Marta Varela-Rey; Virginia Gutiérrez; David Fernández-Ramos; Naiara Beraza; Ana M Aransay; Karin Schlangen; Juan Jose Lozano; Patricia Aspichueta; Zigmund Luka; Conrad Wagner; Matthias Evert; Diego F Calvisi; Shelly C Lu; José M Mato; María L Martínez-Chantar
Journal: Gastroenterology Date: 2012-06-08 Impact factor: 22.682

5. Glycine N-methyltransferase expression in the hippocampus and its role in neurogenesis and cognitive performance.

Authors: Manuel Carrasco; Luis G Rabaneda; Maribel Murillo-Carretero; Sylvia Ortega-Martínez; María L Martínez-Chantar; Ashwin Woodhoo; Zigmund Luka; Conrad Wagner; Shelly C Lu; José M Mato; Juan A Micó; Carmen Castro
Journal: Hippocampus Date: 2014-04-08 Impact factor: 3.899

6. Proteomic analysis of human hepatoma cells expressing methionine adenosyltransferase I/III: Characterization of DDX3X as a target of S-adenosylmethionine.

Authors: Paul C Schröder; Joaquín Fernández-Irigoyen; Emilie Bigaud; Antonio Serna; Rubén Renández-Alcoceba; Shelly C Lu; José M Mato; Jesús Prieto; Fernando J Corrales
Journal: J Proteomics Date: 2012-01-16 Impact factor: 4.044

7. Evidence for LKB1/AMP-activated protein kinase/ endothelial nitric oxide synthase cascade regulated by hepatocyte growth factor, S-adenosylmethionine, and nitric oxide in hepatocyte proliferation.

Authors: Mercedes Vázquez-Chantada; Usue Ariz; Marta Varela-Rey; Nieves Embade; Nuria Martínez-Lopez; David Fernández-Ramos; Laura Gómez-Santos; Santiago Lamas; Shelly C Lu; M Luz Martínez-Chantar; José M Mato
Journal: Hepatology Date: 2009-02 Impact factor: 17.425