Abstract
Acute pancreatitis is a human disease in which the pancreatic pro-enzymes, packaged into the zymogen granules of acinar cells, become activated and cause autodigestion. The main causes of pancreatitis are alcohol abuse and biliary disease. A considerable body of evidence indicates that the primary event initiating the disease process is the excessive release of Ca2+ from intracellular stores, followed by excessive entry of Ca2+ from the interstitial fluid. However, Ca2+ release and subsequent entry are also precisely the processes that control the physiological secretion of digestive enzymes in response to stimulation via the vagal nerve or the hormone cholecystokinin. The spatial and temporal Ca2+ signal patterns in physiology and pathology, as well as the contributions from different organelles in the different situations, are therefore critical issues. There has recently been significant progress in our understanding of both physiological stimulus–secretion coupling and the pathophysiology of acute pancreatitis. Very recently, a promising potential therapeutic development has occurred with the demonstration that the blockade of Ca2+ release-activated Ca2+ currents in pancreatic acinar cells offers remarkable protection against Ca2+ overload, intracellular protease activation and necrosis evoked by a combination of alcohol and fatty acids, which is a major trigger of acute pancreatitis.
Highlights
Acute pancreatitis is a human disease, with a significant mortality, in which the pancreas digests itself, causing necrosis and inflammation
In 1995, we proposed the hypothesis that an excessive rise in the cytoplasmic Ca2+ concentration ([Ca2+]i) of pancreatic acinar cells could be the trigger for the initiation of acute pancreatitis (Ward et al 1995)
Acute pancreatitis is mainly caused by alcohol abuse or biliary disease, and the principal mediators of the toxic effect on acinar cells are non-oxidative products of alcohol and long-chain fatty acids and bile acids, respectively
Summary
She studied biochemistry at the Taras Shevchenko National University of Kyiv, Ukraine, and obtained her PhD in Biophysics at the Bogomoletz Institute of Physiology in Kyiv, under the supervision of Platon Kostyuk She did a post-doctorate with Ole Petersen in the Physiology Department at Liverpool University before becoming a Lecturer at Liverpool University and moving to her current position in Cardiff. He pioneered patch clamp single-channel and whole-cell current recordings in epithelial cells and has, together with Julia and Oleg Gerasimenko, discovered, characterized and localized physiological and pathological Ca2+ transport mechanisms in pancreatic acinar cells. Davenport Award Lecture delivered by O.H.P. at Experimental Biology 2013 in Boston, USA on 23 April 2013
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