Sox9EGFP Defines Biliary Epithelial Heterogeneity Downstream of Yap Activity

Defining the genetic heterogeneity of intrahepatic biliary epithelial cells (BECs) is challenging, and tools for identifying BEC subpopulations are limited. Here, we characterize the expression of a Sox9EGFP transgene in the liver and demonstrate that green fluorescent protein (GFP) expression level...

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Veröffentlicht in:	Cellular and molecular gastroenterology and hepatology 2021-01, Vol.11 (5), p.1437-1462
Hauptverfasser:	Tulasi, Deepthi Y., Castaneda, Diego Martinez, Wager, Kortney, Hogan, Connor B., Alcedo, Karel P., Raab, Jesse R., Gracz, Adam D.
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Schlagworte:	Biliary Epithelium Cholangiocytes Original Research Sox9 Yap
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container_title	Cellular and molecular gastroenterology and hepatology
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creator	Tulasi, Deepthi Y. Castaneda, Diego Martinez Wager, Kortney Hogan, Connor B. Alcedo, Karel P. Raab, Jesse R. Gracz, Adam D.
description	Defining the genetic heterogeneity of intrahepatic biliary epithelial cells (BECs) is challenging, and tools for identifying BEC subpopulations are limited. Here, we characterize the expression of a Sox9EGFP transgene in the liver and demonstrate that green fluorescent protein (GFP) expression levels are associated with distinct cell types. Sox9EGFP BAC transgenic mice were assayed by immunofluorescence, flow cytometry, and gene expression profiling to characterize in vivo characteristics of GFP populations. Single BECs from distinct GFP populations were isolated by fluorescence-activated cell sorting, and functional analysis was conducted in organoid forming assays. Intrahepatic ductal epithelium was grown as organoids and treated with a Yes-associated protein (Yap) inhibitor or bile acids to determine upstream regulation of Sox9 in BECs. Sox9EGFP mice were subjected to bile duct ligation, and GFP expression was assessed by immunofluorescence. BECs express low or high levels of GFP, whereas periportal hepatocytes express sublow GFP. Sox9EGFP+ BECs are differentially distributed by duct size and demonstrate distinct gene expression signatures, with enrichment of Cyr61 and Hes1 in GFPhigh BECs. Single Sox9EGFP+ cells form organoids that exhibit heterogeneous survival, growth, and HNF4A activation dependent on culture conditions, suggesting that exogenous signaling impacts BEC heterogeneity. Yap is required to maintain Sox9 expression in biliary organoids, but bile acids are insufficient to induce BEC Yap activity or Sox9 in vivo and in vitro. Sox9EGFP remains restricted to BECs and periportal hepatocytes after bile duct ligation. Our data demonstrate that Sox9EGFP levels provide readout of Yap activity and delineate BEC heterogeneity, providing a tool for assaying subpopulation-specific cellular function in the liver. [Display omitted]
doi_str_mv	10.1016/j.jcmgh.2021.01.009
format	Article
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Here, we characterize the expression of a Sox9EGFP transgene in the liver and demonstrate that green fluorescent protein (GFP) expression levels are associated with distinct cell types. Sox9EGFP BAC transgenic mice were assayed by immunofluorescence, flow cytometry, and gene expression profiling to characterize in vivo characteristics of GFP populations. Single BECs from distinct GFP populations were isolated by fluorescence-activated cell sorting, and functional analysis was conducted in organoid forming assays. Intrahepatic ductal epithelium was grown as organoids and treated with a Yes-associated protein (Yap) inhibitor or bile acids to determine upstream regulation of Sox9 in BECs. Sox9EGFP mice were subjected to bile duct ligation, and GFP expression was assessed by immunofluorescence. BECs express low or high levels of GFP, whereas periportal hepatocytes express sublow GFP. Sox9EGFP+ BECs are differentially distributed by duct size and demonstrate distinct gene expression signatures, with enrichment of Cyr61 and Hes1 in GFPhigh BECs. Single Sox9EGFP+ cells form organoids that exhibit heterogeneous survival, growth, and HNF4A activation dependent on culture conditions, suggesting that exogenous signaling impacts BEC heterogeneity. Yap is required to maintain Sox9 expression in biliary organoids, but bile acids are insufficient to induce BEC Yap activity or Sox9 in vivo and in vitro. Sox9EGFP remains restricted to BECs and periportal hepatocytes after bile duct ligation. Our data demonstrate that Sox9EGFP levels provide readout of Yap activity and delineate BEC heterogeneity, providing a tool for assaying subpopulation-specific cellular function in the liver. 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subjects	Biliary Epithelium Cholangiocytes Original Research Sox9 Yap
title	Sox9EGFP Defines Biliary Epithelial Heterogeneity Downstream of Yap Activity
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