水向胆汁的转运及其在胆汁形成中的作用。

Water transport into bile and role in bile formation.

作者信息

Calamita Giuseppe, Ferri Domenico, Gena Patrizia, Liquori Giuseppa E, Marinelli Raúl A, Meyer Giuliano, Portincasa Piero, Svelto Maria

机构信息

Dept. of General and Environmental Physiology, University of Bari, Italy.

出版信息

Curr Drug Targets Immune Endocr Metabol Disord. 2005 Jun;5(2):137-42. doi: 10.2174/1568008054064850.

DOI:10.2174/1568008054064850

PMID:16089345

Abstract

Formation of bile and generation of bile flow are driven by the active secretion of bile salts (BS), lipids and electrolytes into the canalicular and bile duct lumens followed by the osmotic movement of water. Although the transporting proteins involved in solute secretion have been cloned and their coordinated interplay defined both in health and disease, boosted by the discovery of the aquaporin water channels, only recently has considerable attention been addressed to the mechanism by which water, the major component of bile (> 95%), moves across the hepatobiliary epithelia. This review summarizes the novel acquisitions in liver membrane water transport and functional participation of aquaporin water channels in multiple aspects of hepatobiliary fluid balance. Emerging evidences suggesting involvement of aquaporins in the metabolic homeostasis of the hepatobiliary tract are also discussed.

摘要

胆汁的形成和胆汁流动的产生是由胆盐（BS）、脂质和电解质主动分泌到胆小管和胆管腔中，随后水进行渗透运动所驱动的。尽管参与溶质分泌的转运蛋白已被克隆，并且它们在健康和疾病状态下的协同相互作用也已明确，但在水通道蛋白水通道被发现的推动下，直到最近，胆汁的主要成分（>95%）水穿过肝胆上皮的机制才受到了相当多的关注。本综述总结了肝细胞膜水转运方面的新进展以及水通道蛋白水通道在肝胆液体平衡多个方面的功能参与情况。还讨论了表明水通道蛋白参与肝胆道代谢稳态的新证据。

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水向胆汁的转运及其在胆汁形成中的作用。

Water transport into bile and role in bile formation.

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