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Diabetes Risk Gene and Wnt Effector Tcf7l2/TCF4 Controls Hepatic Response to Perinatal and Adult Metabolic Demand

Overview
Journal Cell
Publisher Cell Press
Specialty Cell Biology
Date 2012 Dec 25
PMID 23260145
Citations 135
Authors
Sylvia F Boj
Johan H van Es
Meritxell Huch
Vivian S W Li
Anabel Jose
Pantelis Hatzis
Michal Mokry
Andrea Haegebarth
Maaike van den Born
Pierre Chambon
Peter Voshol
Yuval Dor
Edwin Cuppen
Cristina Fillat
Hans Clevers
Affiliations
Soon will be listed here.
Abstract

Most studies on TCF7L2 SNP variants in the pathogenesis of type 2 diabetes (T2D) focus on a role of the encoded transcription factor TCF4 in β cells. Here, a mouse genetics approach shows that removal of TCF4 from β cells does not affect their function, whereas manipulating TCF4 levels in the liver has major effects on metabolism. In Tcf7l2(-/-) mice, the immediate postnatal surge in liver metabolism does not occur. Consequently, pups die due to hypoglycemia. By combining chromatin immunoprecipitation with gene expression profiling, we identify a TCF4-controlled metabolic gene program that is acutely activated in the postnatal liver. In concordance, adult liver-specific Tcf7l2 knockout mice show reduced hepatic glucose production during fasting and display improved glucose homeostasis when maintained on high-fat diet. Furthermore, liver-specific TCF4 overexpression increases hepatic glucose production. These observations imply that TCF4 directly activates metabolic genes and that inhibition of Wnt signaling may be beneficial in metabolic disease.

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