BACKGROUND: Mechanisms of acinar cell death in pancreatitis are poorly understood. Cytochrome c release is a central event in apoptosis in pancreatitis. Here, we assessed the regulation of pancreatic cytochrome c release by Ca(2+), mitochondrial membrane potential (Delta Psi m), and reactive oxygen species (ROS), the signals involved in acute pancreatitis. We used both isolated rat pancreatic mitochondria and intact acinar cells hyperstimulated with cholecystokinin-8 (CCK-8; in vitro model of acute pancreatitis). RESULTS: Micromolar amounts of Ca(2+) depolarised isolated pancreatic mitochondria through a mechanism different from the "classical" (ie, liver) mitochondrial permeability transition pore (mPTP). In contrast with liver, Ca(2+)-induced mPTP opening caused a dramatic decrease in ROS and was not associated with pancreatic mitochondria swelling. Importantly, we found that Ca(2+)-induced depolarisation inhibited cytochrome c release from pancreatic mitochondria, due to blockade of ROS production. As a result, Ca(2+) exerted two opposite effects on cytochrome c release: Ca(2+) per se stimulated the release, whereas Ca(2+)-induced depolarisation inhibited it. This dual effect caused a non-monotonous dose-dependence of cytochrome c release on Ca(2+). In intact acinar cells, cytochrome c release, caspase activation and apoptosis were all stimulated by ROS and Ca(2+), and inhibited by depolarisation, corroborating the findings on isolated pancreatic mitochondria. CONCLUSIONS: These data implicate ROS as a key mediator of CCK-induced apoptotic responses. The results indicate a major role for mitochondria in the effects of Ca(2+ )and ROS on acinar cell death. They suggest that the extent of apoptosis in pancreatitis is regulated by the interplay between ROS, Delta Psi m and Ca(2+). Stabilising mitochondria against loss of Delta Psi m may represent a strategy to mitigate the severity of pancreatitis.
BACKGROUND: Mechanisms of acinar cell death in pancreatitis are poorly understood. Cytochrome c release is a central event in apoptosis in pancreatitis. Here, we assessed the regulation of pancreatic cytochrome c release by Ca(2+), mitochondrial membrane potential (Delta Psi m), and reactive oxygen species (ROS), the signals involved in acute pancreatitis. We used both isolated ratpancreatic mitochondria and intact acinar cells hyperstimulated with cholecystokinin-8 (CCK-8; in vitro model of acute pancreatitis). RESULTS: Micromolar amounts of Ca(2+) depolarised isolated pancreatic mitochondria through a mechanism different from the "classical" (ie, liver) mitochondrial permeability transition pore (mPTP). In contrast with liver, Ca(2+)-induced mPTPopening caused a dramatic decrease in ROS and was not associated with pancreatic mitochondria swelling. Importantly, we found that Ca(2+)-induced depolarisation inhibited cytochrome c release from pancreatic mitochondria, due to blockade of ROS production. As a result, Ca(2+) exerted two opposite effects on cytochrome c release: Ca(2+) per se stimulated the release, whereas Ca(2+)-induced depolarisation inhibited it. This dual effect caused a non-monotonous dose-dependence of cytochrome c release on Ca(2+). In intact acinar cells, cytochrome c release, caspase activation and apoptosis were all stimulated by ROS and Ca(2+), and inhibited by depolarisation, corroborating the findings on isolated pancreatic mitochondria. CONCLUSIONS: These data implicate ROS as a key mediator of CCK-induced apoptotic responses. The results indicate a major role for mitochondria in the effects of Ca(2+ )and ROS on acinar cell death. They suggest that the extent of apoptosis in pancreatitis is regulated by the interplay between ROS, Delta Psi m and Ca(2+). Stabilising mitochondria against loss of Delta Psi m may represent a strategy to mitigate the severity of pancreatitis.
Authors: Ahsan U Shah; Amna Sarwar; Abrahim I Orabi; Samir Gautam; Wayne M Grant; Alexander J Park; Adnan U Shah; Jun Liu; Pramod K Mistry; Dhanpat Jain; Sohail Z Husain Journal: Am J Physiol Gastrointest Liver Physiol Date: 2009-11 Impact factor: 4.052
Authors: Stephen J Pandol; Aurelia Lugea; Olga A Mareninova; Duane Smoot; Fred S Gorelick; Anna S Gukovskaya; Ilya Gukovsky Journal: Alcohol Clin Exp Res Date: 2011-02-01 Impact factor: 3.455
Authors: Anna S Gukovskaya; Fred S Gorelick; Guy E Groblewski; Olga A Mareninova; Aurelia Lugea; Laura Antonucci; Richard T Waldron; Aida Habtezion; Michael Karin; Stephen J Pandol; Ilya Gukovsky Journal: Pancreas Date: 2019-04 Impact factor: 3.327
Authors: György Biczó; Péter Hegyi; Sándor Dósa; Natalia Shalbuyeva; Sándor Berczi; Riitta Sinervirta; Zsuzsanna Hracskó; Andrea Siska; Zoltán Kukor; Katalin Jármay; Viktória Venglovecz; Ilona S Varga; Béla Iványi; Leena Alhonen; Tibor Wittmann; Anna Gukovskaya; Tamás Takács; Zoltán Rakonczay Journal: Antioxid Redox Signal Date: 2011-07-18 Impact factor: 8.401