Literature DB >> 23493015

Choline's role in maintaining liver function: new evidence for epigenetic mechanisms.

Mihai G Mehedint1, Steven H Zeisel.   

Abstract

PURPOSE OF REVIEW: Humans eating diets low in choline develop fatty liver and liver damage. Rodents fed choline-methionine-deficient diets not only develop fatty liver, but also progress to develop fibrosis and hepatocarcinoma. This review focuses on the role of choline in liver function, with special emphasis on the epigenetic mechanisms of action. RECENT
FINDINGS: Dietary intake of methyl donors like choline influences the methylation of DNA and histones, thereby altering the epigenetic regulation of gene expression. The liver is the major organ within which methylation reactions occur, and many of the hepatic genes involved in pathways for the development of fatty liver, hepatic fibrosis, and hepatocarcinomas are epigenetically regulated.
SUMMARY: Dietary intake of choline varies over a three-fold range and many humans have genetic polymorphisms that increase their demand for choline. Choline is an important methyl donor needed for the generation of S-adenosylmethionine. Dietary choline intake is an important modifier of epigenetic marks on DNA and histones, and thereby modulates the gene expression in many of the pathways involved in liver function and dysfunction.

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Year:  2013        PMID: 23493015      PMCID: PMC3729018          DOI: 10.1097/MCO.0b013e3283600d46

Source DB:  PubMed          Journal:  Curr Opin Clin Nutr Metab Care        ISSN: 1363-1950            Impact factor:   4.294


  88 in total

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Review 4.  Chromatin as an expansive canvas for chemical biology.

Authors:  Beat Fierz; Tom W Muir
Journal:  Nat Chem Biol       Date:  2012-04-17       Impact factor: 15.040

5.  Disturbed one-carbon metabolism causing adverse reproductive outcomes in mice is associated with altered expression of apolipoprotein AI and inflammatory mediators PPARα, interferon-γ, and interleukin-10.

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6.  Systemic inflammation in nonalcoholic fatty liver disease is characterized by elevated levels of CCL2.

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Journal:  J Hepatol       Date:  2006-03-20       Impact factor: 25.083

7.  Hepatic epigenetic phenotype predetermines individual susceptibility to hepatic steatosis in mice fed a lipogenic methyl-deficient diet.

Authors:  Igor P Pogribny; Volodymyr P Tryndyak; Tetyana V Bagnyukova; Stepan Melnyk; Beverly Montgomery; Sharon A Ross; John R Latendresse; Ivan Rusyn; Frederick A Beland
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8.  Beyond insulin resistance in NASH: TNF-alpha or adiponectin?

Authors:  Jason M Hui; Alex Hodge; Geoffrey C Farrell; James G Kench; Adamandia Kriketos; Jacob George
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9.  Expression of the peroxisome proliferator activated receptor gamma gene is repressed by DNA methylation in visceral adipose tissue of mouse models of diabetes.

Authors:  Katsunori Fujiki; Fumi Kano; Kunio Shiota; Masayuki Murata
Journal:  BMC Biol       Date:  2009-07-10       Impact factor: 7.431

10.  MeCP2 controls an epigenetic pathway that promotes myofibroblast transdifferentiation and fibrosis.

Authors:  Jelena Mann; David C K Chu; Aidan Maxwell; Fiona Oakley; Nian-Ling Zhu; Hidekazu Tsukamoto; Derek A Mann
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  31 in total

Review 1.  Gut Microbiota in Liver Disease: What Do We Know and What Do We Not Know?

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2.  Adult emotionality and neural plasticity as a function of adolescent nutrient supplementation in male rats.

Authors:  Nora McCall; Darshini Mahadevia; Jennifer A Corriveau; Melissa J Glenn
Journal:  Pharmacol Biochem Behav       Date:  2015-03-14       Impact factor: 3.533

3.  Gut microbiota, fatty liver disease, and hepatocellular carcinoma.

Authors:  Huikuan Chu; Brandon Williams; Bernd Schnabl
Journal:  Liver Res       Date:  2018-02-21

4.  Publisher Correction: The gut-liver axis and the intersection with the microbiome.

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Journal:  Nat Rev Gastroenterol Hepatol       Date:  2018-12       Impact factor: 46.802

5.  Higher dietary choline intake is associated with lower risk of nonalcoholic fatty liver in normal-weight Chinese women.

Authors:  Danxia Yu; Xiao-Ou Shu; Yong-Bing Xiang; Honglan Li; Gong Yang; Yu-Tang Gao; Wei Zheng; Xianglan Zhang
Journal:  J Nutr       Date:  2014-10-15       Impact factor: 4.798

6.  The association of serum choline with linear growth failure in young children from rural Malawi.

Authors:  Richard D Semba; Pingbo Zhang; Marta Gonzalez-Freire; Ruin Moaddel; Indi Trehan; Kenneth M Maleta; M Isabel Ordiz; Luigi Ferrucci; Mark J Manary
Journal:  Am J Clin Nutr       Date:  2016-06-08       Impact factor: 7.045

7.  Maternal choline modifies fetal liver copper, gene expression, DNA methylation, and neonatal growth in the tx-j mouse model of Wilson disease.

Authors:  Valentina Medici; Noreene M Shibata; Kusum K Kharbanda; Mohammad S Islam; Carl L Keen; Kyoungmi Kim; Brittany Tillman; Samuel W French; Charles H Halsted; Janine M LaSalle
Journal:  Epigenetics       Date:  2013-11-12       Impact factor: 4.528

8.  Associations of choline-related nutrients with cardiometabolic and all-cause mortality: results from 3 prospective cohort studies of blacks, whites, and Chinese.

Authors:  Jae Jeong Yang; Loren P Lipworth; Xiao-Ou Shu; William J Blot; Yong-Bing Xiang; Mark D Steinwandel; Honglan Li; Yu-Tang Gao; Wei Zheng; Danxia Yu
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9.  Two methods for assessment of choline status in a randomized crossover study with varying dietary choline intake in people: isotope dilution MS of plasma and in vivo single-voxel magnetic resonance spectroscopy of liver.

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Review 10.  Human Gut Microbiome and Liver Diseases: From Correlation to Causation.

Authors:  Rui Li; Zhengsheng Mao; Xujun Ye; Tao Zuo
Journal:  Microorganisms       Date:  2021-05-08
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