The p.E152K-STIM1 mutation deregulates Ca2+ signaling contributing to chronic pancreatitis

Since deregulation of intracellular Ca2+ can lead to intracellular trypsin activation, and stromal interaction molecule-1 (STIM1) protein is the main regulator of Ca2+ homeostasis in pancreatic acinar cells, we explored the Ca2+ signaling in 37 STIM1 variants found in three pancreatitis patient coho...

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Veröffentlicht in:	Journal of cell science 2021-02, Vol.134 (3)
Hauptverfasser:	Burgos, Miguel, Philippe, Reginald, Antigny, Fabrice, Buscaglia, Paul, Masson, Emmanuelle, Mukherjee, Sreya, Dubar, Pauline, Le Maréchal, Cédric, Campeotto, Florence, Lebonvallet, Nicolas, Frieden, Maud, Llopis, Juan, Domingo, Beatriz, Stathopulos, Peter B., Ikura, Mitsuhiko, Brooks, Wesley, Guida, Wayne, Chen, Jian-Min, Ferec, Claude, Capiod, Thierry, Mignen, Olivier
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Sprache:	eng
Schlagworte:	Life Sciences
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creator	Burgos, Miguel Philippe, Reginald Antigny, Fabrice Buscaglia, Paul Masson, Emmanuelle Mukherjee, Sreya Dubar, Pauline Le Maréchal, Cédric Campeotto, Florence Lebonvallet, Nicolas Frieden, Maud Llopis, Juan Domingo, Beatriz Stathopulos, Peter B. Ikura, Mitsuhiko Brooks, Wesley Guida, Wayne Chen, Jian-Min Ferec, Claude Capiod, Thierry Mignen, Olivier
description	Since deregulation of intracellular Ca2+ can lead to intracellular trypsin activation, and stromal interaction molecule-1 (STIM1) protein is the main regulator of Ca2+ homeostasis in pancreatic acinar cells, we explored the Ca2+ signaling in 37 STIM1 variants found in three pancreatitis patient cohorts. Extensive functional analysis of one particular variant, p.E152K, identified in three patients, provided a plausible link between dysregulated Ca2+ signaling within pancreatic acinar cells and chronic pancreatitis susceptibility. Specifically, p.E152K, located within the STIM1 EF-hand and sterile α-motif domain, increased the release of Ca2+ from the endoplasmic reticulum in patient-derived fibroblasts and transfected HEK293T cells. This event was mediated by altered STIM1–sarco/endoplasmic reticulum calcium transport ATPase (SERCA) conformational change and enhanced SERCA pump activity leading to increased store-operated Ca2+ entry (SOCE). In pancreatic AR42J cells expressing the p.E152K variant, Ca2+ signaling perturbations correlated with defects in trypsin activation and secretion, and increased cytotoxicity after cholecystokinin stimulation. This article has an associated First Person interview with the first author of the paper.
doi_str_mv	10.1242/jcs.244012
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Extensive functional analysis of one particular variant, p.E152K, identified in three patients, provided a plausible link between dysregulated Ca2+ signaling within pancreatic acinar cells and chronic pancreatitis susceptibility. Specifically, p.E152K, located within the STIM1 EF-hand and sterile α-motif domain, increased the release of Ca2+ from the endoplasmic reticulum in patient-derived fibroblasts and transfected HEK293T cells. This event was mediated by altered STIM1–sarco/endoplasmic reticulum calcium transport ATPase (SERCA) conformational change and enhanced SERCA pump activity leading to increased store-operated Ca2+ entry (SOCE). In pancreatic AR42J cells expressing the p.E152K variant, Ca2+ signaling perturbations correlated with defects in trypsin activation and secretion, and increased cytotoxicity after cholecystokinin stimulation. 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title	The p.E152K-STIM1 mutation deregulates Ca2+ signaling contributing to chronic pancreatitis
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