Experimental models to study cholangiocyte biology

doi:10.3748/wjg.v8.i1.1

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Feb 15, 2002 (publication date) through Apr 24, 2024

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World Journal of Gastroenterology

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1007-9327

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

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World J Gastroenterol. Feb 15, 2002; 8(1): 1-4
Published online Feb 15, 2002. doi: 10.3748/wjg.v8.i1.1

Experimental models to study cholangiocyte biology

Pamela S. Tietz, Xian-Ming Chen, Ai-Yu Gong, Robert C. Huebert, Anatoliy Masyuk, Tatyana Masyuk, Patrick L. Splinter, Nicholas F. LaRusso

Pamela S. Tietz, Xian-Ming Chen, Ai-Yu Gong, Robert C. Huebert, Anatoliy Masyuk, Tatyana Masyuk, Patrick L. Splinter, Nicholas F. LaRusso, Center for Basic Research in Digestive Diseases, Department of Internal Medicine and Biochemistry and Molecular Biology, Mayo Medical School, Clinic and Foundation, Rochester, MN 55905

Author contributions: All authors contributed equally to the work.

Supported by grants DK24031 and DK57993 (N. F. LaRusso) from the National Institutes of Health and by the Mayo Foundation

Correspondence to: Nicholas F. LaRusso, Center for Basic Research in Digestive Diseases, Mayo Medical School, Clinic and Foundation, 200 First Street, SW Rochester, MN 55905, United States. larusso.nicholas@mayo.edu

Telephone: +1-507284-1006 Fax: +1-507284-0762

Received: January 14, 2002
Revised: January 17, 2002
Accepted: January 18, 2002
Published online: February 15, 2002

Abstract

Cholangiocytes-the epithelial cells which line the bile ducts-are increasingly recognized as important transporting epithelia actively involved in the absorption and secretion of water, ions, and solutes. This recognition is due in part to the recent development of new experimental models. New biologic concepts have emerged including the identification and topography of receptors and flux proteins on the apical and/or basolateral membrane which are involved in the molecular mechanisms of ductal bile secretion. Individually isolated and/or perfused bile duct units from livers of rats and mice serve as new, physiologically relevant in vitro models to study cholangiocyte transport. Biliary tree dimensions and novel insights into anatomic remodeling of proliferating bile ducts have emerged from three-dimensional reconstruction using CT scanning and sophisticated software. Moreover, new pathologic concepts have arisen regarding the interaction of cholangiocytes with pathogens such as Cryptosporidium parvum. These concepts and associated methodologies may provide the framework to develop new therapies for the cholangiopathies, a group of important hepatobiliary diseases in which cholangiocytes are the target cell.

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