Soona Shin1, Naman Upadhyay1, Linda E Greenbaum2, Klaus H Kaestner3. 1. Department of Genetics and Center for Molecular Studies in Digestive and Liver Diseases, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania. 2. Departments of Cancer Biology and Medicine, Thomas Jefferson University, Philadelphia, Pennsylvania. 3. Department of Genetics and Center for Molecular Studies in Digestive and Liver Diseases, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania. Electronic address: kaestner@mail.med.upenn.edu.
Abstract
BACKGROUND & AIMS: Foxl1(+) hepatic progenitor cells (HPCs) differentiate into cholangiocytes and hepatocytes after liver injury. We investigated the requirement for Foxl1(+) HPCs in recovery from liver injury in mice. METHODS: We developed mice in which we could trace and delete Foxl1-expressing HPCs and their descendants (Foxl1-Cre;Rosa(YFP/iDTR)-inducible diphtheria toxin receptor [iDTR] mice). Foxl1-Cre-negative mice were used as controls. Liver damage was induced in male mice by placing them on choline-deficient, ethionine-supplemented (CDE) diets for 15 days; mice then were placed on normal diets and allowed to recover. Liver damage was induced in female mice by placing them on 3,5-diethoxycarbonyl-1,4-dihydrocollidine (DDC)-containing diets, followed by a recovery period. Some mice were given injections of diphtheria toxin during the recovery phase to delete Foxl1-Cre-marked HPCs and their descendants. Livers were collected from all mice and analyzed by immunofluorescence, quantitative reverse-transcription polymerase chain reaction, flow cytometry, and histologic analyses. RESULTS: Foxl1-Cre-marked HPCs were required for the development of cholangiocytes and hepatocytes in livers after CDE diet-induced injury. A smaller percentage of yellow fluorescent protein-positive (YFP(+)) hepatocytes contained markers of oxidative stress, DNA damage, or cell death than YFP-negative hepatocytes, indicating that YFP(+) hepatocytes are newly formed cells. Injection of diphtheria toxin deleted YFP(+) cells from Foxl1-Cre;Rosa(YFP/iDTR) mice and prevented the resolution of hepatic steatosis. In mice recovering from DDC diet-induced injury, most cholangiocytes arose from Foxl1-Cre-marked HPCs. Deletion of YFP(+) cells did not alter levels of markers of liver injury or liver function. CONCLUSIONS: Based on studies of Foxl1-Cre;Rosa(YFP/iDTR) mice, Foxl1(+) HPCs and/or their descendants are required for the development of cholangiocytes and hepatocytes in liver after CDE diet-induced injury.
BACKGROUND & AIMS:Foxl1(+) hepatic progenitor cells (HPCs) differentiate into cholangiocytes and hepatocytes after liver injury. We investigated the requirement for Foxl1(+) HPCs in recovery from liver injury in mice. METHODS: We developed mice in which we could trace and delete Foxl1-expressing HPCs and their descendants (Foxl1-Cre;Rosa(YFP/iDTR)-inducible diphtheria toxin receptor [iDTR] mice). Foxl1-Cre-negative mice were used as controls. Liver damage was induced in male mice by placing them on choline-deficient, ethionine-supplemented (CDE) diets for 15 days; mice then were placed on normal diets and allowed to recover. Liver damage was induced in female mice by placing them on 3,5-diethoxycarbonyl-1,4-dihydrocollidine (DDC)-containing diets, followed by a recovery period. Some mice were given injections of diphtheria toxin during the recovery phase to delete Foxl1-Cre-marked HPCs and their descendants. Livers were collected from all mice and analyzed by immunofluorescence, quantitative reverse-transcription polymerase chain reaction, flow cytometry, and histologic analyses. RESULTS:Foxl1-Cre-marked HPCs were required for the development of cholangiocytes and hepatocytes in livers after CDE diet-induced injury. A smaller percentage of yellow fluorescent protein-positive (YFP(+)) hepatocytes contained markers of oxidative stress, DNA damage, or cell death than YFP-negative hepatocytes, indicating that YFP(+) hepatocytes are newly formed cells. Injection of diphtheria toxin deleted YFP(+) cells from Foxl1-Cre;Rosa(YFP/iDTR) mice and prevented the resolution of hepatic steatosis. In mice recovering from DDC diet-induced injury, most cholangiocytes arose from Foxl1-Cre-marked HPCs. Deletion of YFP(+) cells did not alter levels of markers of liver injury or liver function. CONCLUSIONS: Based on studies of Foxl1-Cre;Rosa(YFP/iDTR) mice, Foxl1(+) HPCs and/or their descendants are required for the development of cholangiocytes and hepatocytes in liver after CDE diet-induced injury.
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