Orai1 calcium channel inhibition prevents progression of chronic pancreatitis
Viktória Szabó, Noémi Csákány-Papp, Marietta Görög, Tamara Madácsy, Árpád Varga, Aletta Kiss, Bálint Tél, Boldizsár Jójárt, Tim Crul, Krisztina Dudás, Mária Bagyánszki, Nikolett Bódi, Ferhan Ayaydin, Shyam Jee, László Tiszlavicz, Kenneth A. Stauderman, Sudarshan Hebbar, Petra Pallagi, József Maléth
Viktória Szabó, Noémi Csákány-Papp, Marietta Görög, Tamara Madácsy, Árpád Varga, Aletta Kiss, Bálint Tél, Boldizsár Jójárt, Tim Crul, Krisztina Dudás, Mária Bagyánszki, Nikolett Bódi, Ferhan Ayaydin, Shyam Jee, László Tiszlavicz, Kenneth A. Stauderman, Sudarshan Hebbar, Petra Pallagi, József Maléth
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Research Article Cell biology Gastroenterology

Orai1 calcium channel inhibition prevents progression of chronic pancreatitis

Abstract

Patients with recurrent acute pancreatitis (RAP) are at significant risk of developing early chronic pancreatitis (CP), which progresses into irreversible, end-stage CP with severe symptoms. There is no specific therapy in RAP or in early CP that may hinder disease progression. The pathogenesis of CP is complex and involves interactions among multiple cell types, including pancreatic acinar, ductal, and stellate cells (PSC). Therefore, it is pivotal to identify common pathogenic pathways in these cells that could be targeted pharmacologically. The Orai1-mediated store-operated Ca2+ entry (SOCE) is a ubiquitous signaling mechanism that may become overactivated in pathological states resulting in intracellular Ca2+ overload. In this study, we used ex vivo and in vivo preclinical disease models to demonstrate that Orai1 inhibition prevents progression of RAP and early CP. The selective Orai1 inhibitor CM5480 restored the expression of SOCE-associated regulatory factor in acinar cells, prevented uncontrolled Ca2+ elevation, protected acinar and ductal functions, mitigated immune cell infiltration, and diminished PSC activation, proliferation, and migration. We suggest that the overactivation of Orai1 is a crucial pathogenetic event in the progression of early CP and that inhibition of Orai1 could prevent the development of end-stage CP.

Authors

Viktória Szabó, Noémi Csákány-Papp, Marietta Görög, Tamara Madácsy, Árpád Varga, Aletta Kiss, Bálint Tél, Boldizsár Jójárt, Tim Crul, Krisztina Dudás, Mária Bagyánszki, Nikolett Bódi, Ferhan Ayaydin, Shyam Jee, László Tiszlavicz, Kenneth A. Stauderman, Sudarshan Hebbar, Petra Pallagi, József Maléth

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Figure 4

Localization and protein expression of SARAF partially restored upon Orai1 inhibition.

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Localization and protein expression of SARAF partially restored upon Ora...
(A) Representative IHC and deconvoluted images of SARAF in the pancreatic acini from control mice (p.s. + vehicle) and from mice treated with control + CM5480 (p.s. + CM5480), cerulein + vehicle, and cerulein + CM5480. Scale bar: 20 μm. Bar chart demonstrates the number of detections (n = 3/group, 5–7 images/animal). (B) SARAF and Orai1 mRNA expression in mouse pancreatic tissue (n = 3/group). (C) Immunofluorescence staining and plot profiles of SARAF and Orai1 in control (p.s. + vehicle) mice and in mouse pancreas treated with control + CM5480 (p.s. + CM5480), cerulein + vehicle and cerulein + CM5480 (n = 3/group, 5-7 images/animal). Scale bars: 50 m. Yellow arrow: plot profile. (D) Western blot analysis of SARAF and β-actin protein level: protein samples were isolated from mouse pancreas and loaded in 20 μg (n = 6/group). Bar charts represents the intensity analysis of SARAF protein expressions in arbitrary values. A P value less than 0.05 was considered significant by unpaired t test (A and B [Saraf], and C), Mann-Whitney U test (B [Orai1]), and ordinary 1-way ANOVA (D). Data represent mean ± SEM. cer., cerulein; p.s., physiological saline; z, zoom. Blurred bars on AC are the data presented in Figure 1, D and E, and Figure 2A and are presented here for easier comparison. The statistical analysis in Figure 1, D and E; Figure 2A; and AC account for all the comparisons made with the control data.