TY - JOUR
T1 - Cholangiocyte biology
AU - Tietz, Pamela S.
AU - LaRusso, Nicholas F.
PY - 2005/5
Y1 - 2005/5
N2 - Purpose of review: Cholangiocytes are increasingly recognized as biologically important because of the diverse array of cellular processes in which they participate. Collectively, these processes define normal function and, when disturbed, account for abnormalities that cause disease. Advances in animal models and sophisticated technology in imaging and gene silencing have allowed progress in defining the roles that cholangiocytes play in signaling, transport of water, ions and solutes, and alterations that result in cholestasis. The pace of advances in technology justifies a yearly summary to identify the most important developments in cholangiocyte biology. Recent findings: The main areas of recent progress include insights into the molecular mechanisms of bile secretion and the development of new experimental models and technologies. Summary: Understanding the critical components and key biologic processes in cholangiocytes responsible for regulation of ductal bile secretion is an initial and required step in generating hypotheses relevant to disease. With regard to the pathologic relevance of this work, cholestatic liver diseases represent a broad group of hepatobiliary disorders with which hepatologists must deal. In addition to genetic defects, the study of the normal and altered trafficking of cholangiocyte transport systems involved in bile secretion may provide a molecular correlate for the functional changes that occur in disease. Critical to this understanding is the ongoing development of experimental models and techniques to interpret data to answer key hypothesis-driven questions. Second, the collegial sharing and exchange of novel concepts, ideas, reagents, and probes promotes positive advances in the field.
AB - Purpose of review: Cholangiocytes are increasingly recognized as biologically important because of the diverse array of cellular processes in which they participate. Collectively, these processes define normal function and, when disturbed, account for abnormalities that cause disease. Advances in animal models and sophisticated technology in imaging and gene silencing have allowed progress in defining the roles that cholangiocytes play in signaling, transport of water, ions and solutes, and alterations that result in cholestasis. The pace of advances in technology justifies a yearly summary to identify the most important developments in cholangiocyte biology. Recent findings: The main areas of recent progress include insights into the molecular mechanisms of bile secretion and the development of new experimental models and technologies. Summary: Understanding the critical components and key biologic processes in cholangiocytes responsible for regulation of ductal bile secretion is an initial and required step in generating hypotheses relevant to disease. With regard to the pathologic relevance of this work, cholestatic liver diseases represent a broad group of hepatobiliary disorders with which hepatologists must deal. In addition to genetic defects, the study of the normal and altered trafficking of cholangiocyte transport systems involved in bile secretion may provide a molecular correlate for the functional changes that occur in disease. Critical to this understanding is the ongoing development of experimental models and techniques to interpret data to answer key hypothesis-driven questions. Second, the collegial sharing and exchange of novel concepts, ideas, reagents, and probes promotes positive advances in the field.
KW - Disease
KW - Secretion
KW - Transport
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U2 - 10.1097/01.mog.0000158111.21345.c2
DO - 10.1097/01.mog.0000158111.21345.c2
M3 - Review article
C2 - 15818155
AN - SCOPUS:17844392619
SN - 0267-1379
VL - 21
SP - 337
EP - 343
JO - Current Opinion in Gastroenterology
JF - Current Opinion in Gastroenterology
IS - 3
ER -