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Esophagus

Acid and bile salt up-regulate BMP4 expression in human esophageal epithelium cells

, , , , & , MD
Pages 926-932 | Received 15 Jan 2009, Published online: 13 Aug 2009

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Caifei Shen, Haoxiang Zhang, Pu Wang, Ji Feng, Jingwen Li, Yin Xu, Anran Zhang, Shunzi Shao, Xiaona Yu, Wu Yan, Yiju Xia, Jiali Hu & Dianchun Fang. (2016) Deoxycholic acid (DCA) confers an intestinal phenotype on esophageal squamous epithelium via induction of the stemness-associated reprogramming factors OCT4 and SOX2. Cell Cycle 15:11, pages 1439-1449.
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Helge L. Waldum. (2009) This month in the Scandinavian Journal of Gastroenterology. Scandinavian Journal of Gastroenterology 44:8, pages 900-901.
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Jae Woong Jeong, Minki Kim, Jiwoo Lee, Hae-Kyung Lee, Younhee Ko, Hyunkyung Kim & Sungsoon Fang. (2020) ID1-Mediated BMP Signaling Pathway Potentiates Glucagon-Like Peptide-1 Secretion in Response to Nutrient Replenishment. International Journal of Molecular Sciences 21:11, pages 3824.
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Christine Kestens, Peter D. Siersema, G. Johan A. Offerhaus & Jantine W. P. M. van Baal. (2016) BMP4 Signaling Is Able to Induce an Epithelial-Mesenchymal Transition-Like Phenotype in Barrett’s Esophagus and Esophageal Adenocarcinoma through Induction of SNAIL2. PLOS ONE 11:5, pages e0155754.
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Harit Kapoor, Devendra K. Agrawal & Sumeet K. Mittal. (2015) Barrett's esophagus: recent insights into pathogenesis and cellular ontogeny. Translational Research 166:1, pages 28-40.
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K. Pavlov, C. Meijer, A. van den Berg, F.T.M. Peters, F.A.E. Kruyt & J.H. Kleibeuker. (2014) Embryological signaling pathways in Barrett's metaplasia development and malignant transformation; mechanisms and therapeutic opportunities. Critical Reviews in Oncology/Hematology 92:1, pages 25-37.
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Cameron M Smith, Michael Z Michael, David I Watson, Grace Tan, David St J Astill, Richard Hummel & Damian J Hussey. (2013) Impact of gastro-oesophageal reflux on microRNA expression, location and function. BMC Gastroenterology 13:1.
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Katherine S. GarmanRoy C. Orlando & Xiaoxin Chen. (2012) Review: Experimental models for Barrett's esophagus and esophageal adenocarcinoma. American Journal of Physiology-Gastrointestinal and Liver Physiology 302:11, pages G1231-G1243.
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Yoshiko Takahashi, Yuji Amano, Takafumi Yuki, Yuko Mishima, Yuji Tamagawa, Goichi Uno, Norihisa Ishimura, Shuichi Sato, Shunji Ishihara & Yoshikazu Kinoshita. (2011) Impact of the composition of gastric reflux bile acids on Barrett's oesophagus. Digestive and Liver Disease 43:9, pages 692-697.
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K. R. McQuaid, L. Laine, M. B. Fennerty, R. Souza & S. J. Spechler. (2011) Systematic review: the role of bile acids in the pathogenesis of gastro-oesophageal reflux disease and related neoplasia. Alimentary Pharmacology & Therapeutics 34:2, pages 146-165.
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Aaron Goldman, Hwu Dau Rw ChenHeather B. RoeslyKimberly A. HillMargaret E. Tome, Bohuslav DvorakHarris BernsteinKaterina Dvorak. (2011) Characterization of squamous esophageal cells resistant to bile acids at acidic pH: implication for Barrett's esophagus pathogenesis. American Journal of Physiology-Gastrointestinal and Liver Physiology 300:2, pages G292-G302.
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Abhayjit Singh, Cathrine DeMars & Navtej S. Buttar. 2010. 63 92 .

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