Martin Wagner1,2, Sungwoo Choi3, Katrin Panzitt2, Jennifer L Mamrosh1, Jae Man Lee1, Alex Zaufel2, Rui Xiao1, Ruth Wooton-Kee1, Marcus Ståhlman4, Christopher B Newgard5, Jan Borén4, David D Moore1. 1. Department of Molecular and Cellular Biology, Baylor College of Medicine, Houston, TX, USA. 2. Division of Gastroenterology and Hepatology, Medical University Graz, Graz, Austria. 3. Program in Developmental Biology, Baylor College of Medicine, Houston, TX, USA. 4. Department of Molecular and Clinical Medicine, University of Gothenburg and Sahlgrenska University Hospital, Gothenburg, Sweden. 5. Department of Pharmacology and Cancer Biology, Duke University School of Medicine, Durham, NC, USA.
Abstract
UNLABELLED: Balance of labile methyl groups (choline, methionine, betaine, and folate) is important for normal liver function. Quantitatively, a significant use of labile methyl groups is in the production of phosphatidylcholines (PCs), which are ligands for the nuclear liver receptor homolog-1 (LRH-1). We studied the role of LRH-1 in methyl-pool homeostasis and determined its metabolic effects using the methionine and choline-deficient (MCD) diet, which depletes methyl groups and results in a deleterious decrease in the PC-to-phosphatidylethanolamine ratio. We found that MCD diet-fed, liver-specific LRH-1 knockout mice (Lrh-1(-/-) ) do not show the expected decreased methyl-pool and PC/phosphatidylethanolamine ratio and are resistant to the hepatitis and fibrosis normally induced by the diet. Adaptive responses observed in wild-type mice on the MCD diet were also observed in Lrh-1(-/-) mice on a normal diet. This includes reduced expression of the highly active glycine-n-methyltransferase and the biliary phospholipid floppase multidrug-resistance protein 2 (Mdr2/Abcb4), resulting in reduced consumption of methyl groups and biliary PC secretion. In vitro studies confirm that Gnmt and Mdr2 are primary LRH-1 target genes. Additional similarities between hepatic gene expression profiles in MCD diet-fed wild-type and untreated Lrh-1(-/-) mice suggest that methyl-pool deficiency decreases LRH-1 activity, and this was confirmed by in vitro functional results in cells maintained in MCD medium. CONCLUSION: LRH-1 is a novel transcriptional regulator of methyl-pool balance; when the methyl-pool is depleted, decreased LRH-1 transactivation suppresses expression of key genes to minimize loss of labile methyl groups. (Hepatology 2016;63:95-106).
UNLABELLED: Balance of labile methyl groups (choline, methionine, betaine, and folate) is important for normal liver function. Quantitatively, a significant use of labile methyl groups is in the production of phosphatidylcholines (PCs), which are ligands for the nuclear liver receptor homolog-1 (LRH-1). We studied the role of LRH-1 in methyl-pool homeostasis and determined its metabolic effects using the methionine and choline-deficient (MCD) diet, which depletes methyl groups and results in a deleterious decrease in the PC-to-phosphatidylethanolamine ratio. We found that MCD diet-fed, liver-specific LRH-1 knockout mice (Lrh-1(-/-) ) do not show the expected decreased methyl-pool and PC/phosphatidylethanolamine ratio and are resistant to the hepatitis and fibrosis normally induced by the diet. Adaptive responses observed in wild-type mice on the MCD diet were also observed in Lrh-1(-/-) mice on a normal diet. This includes reduced expression of the highly active glycine-n-methyltransferase and the biliary phospholipid floppase multidrug-resistance protein 2 (Mdr2/Abcb4), resulting in reduced consumption of methyl groups and biliary PC secretion. In vitro studies confirm that Gnmt and Mdr2 are primary LRH-1 target genes. Additional similarities between hepatic gene expression profiles in MCD diet-fed wild-type and untreated Lrh-1(-/-) mice suggest that methyl-pool deficiency decreases LRH-1 activity, and this was confirmed by in vitro functional results in cells maintained in MCD medium. CONCLUSION:LRH-1 is a novel transcriptional regulator of methyl-pool balance; when the methyl-pool is depleted, decreased LRH-1 transactivation suppresses expression of key genes to minimize loss of labile methyl groups. (Hepatology 2016;63:95-106).
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