PFKFB3 controls acinar IP3R-mediated Ca2+ overload to regulate acute pancreatitis severity
Tan Zhang, Shengchuan Chen, Liang Li, Yuepeng Jin, Siying Liu, Zhu Liu, Fengyu Shi, Lifen Xie, Panpan Guo, Andrew C. Cannon, Akmal Ergashev, Haiping Yao, Chaohao Huang, Baofu Zhang, Lijun Wu, Hongwei Sun, Siming Chen, Yunfeng Shan, Zhengping Yu, Ezequiel J. Tolosa, Jianghuai Liu, Martin E. Fernandez-Zapico, Feng Ma, Gang Chen
Tan Zhang, Shengchuan Chen, Liang Li, Yuepeng Jin, Siying Liu, Zhu Liu, Fengyu Shi, Lifen Xie, Panpan Guo, Andrew C. Cannon, Akmal Ergashev, Haiping Yao, Chaohao Huang, Baofu Zhang, Lijun Wu, Hongwei Sun, Siming Chen, Yunfeng Shan, Zhengping Yu, Ezequiel J. Tolosa, Jianghuai Liu, Martin E. Fernandez-Zapico, Feng Ma, Gang Chen
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Research Article Inflammation Metabolism

PFKFB3 controls acinar IP3R-mediated Ca2+ overload to regulate acute pancreatitis severity

Abstract

Acute pancreatitis (AP) is among the most common hospital gastrointestinal diagnoses; understanding the mechanisms underlying the severity of AP is critical for development of new treatment options for this disease. Here, we evaluate the biological function of phosphofructo-2-kinase/fructose-2,6-biphosphatase 3 (PFKFB3) in AP pathogenesis in 2 independent genetically engineered mouse models of AP. PFKFB3 was elevated in AP and severe AP (SAP), and KO of Pfkfb3 abrogated the severity of alcoholic SAP (FAEE-SAP). Using a combination of genetic, pharmacological, and molecular studies, we defined the interaction of PFKFB3 with inositol 1,4,5-trisphosphate receptor (IP3R) as a key event mediating this phenomenon. Further analysis demonstrated that the interaction between PFKFB3 and IP3R promotes FAEE-SAP severity by altering intracellular calcium homeostasis in acinar cells. Together, our results support a PFKFB3-driven mechanism controlling AP pathobiology and define this enzyme as a therapeutic target to ameliorate the severity of this condition.

Authors

Tan Zhang, Shengchuan Chen, Liang Li, Yuepeng Jin, Siying Liu, Zhu Liu, Fengyu Shi, Lifen Xie, Panpan Guo, Andrew C. Cannon, Akmal Ergashev, Haiping Yao, Chaohao Huang, Baofu Zhang, Lijun Wu, Hongwei Sun, Siming Chen, Yunfeng Shan, Zhengping Yu, Ezequiel J. Tolosa, Jianghuai Liu, Martin E. Fernandez-Zapico, Feng Ma, Gang Chen

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Figure 6

PFKFB3 cooperates with IP3R to regulate calcium homeostasis in pancreatic acinar cells.

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PFKFB3 cooperates with IP3R to regulate calcium homeostasis in pancreati...
(A) Expression of IP3R, p-IP3R, PFKFB3, and GAPDH by Western blotting in mice pancreata from the FAEE-SAP model. (B) AR42J cells were pretreated with KAN0438757 (4 μM) or DMSO for 12 hours, and 0.5 or 6 hours after POA (300 μM) stimulation cells were harvested for Western blotting analysis. (C) Representative traces of POA induced Ca2+ elevations in AR42J cells were recorded by High Content Analysis Imaging System. KAN0438757 (4 μM) was administered 12 hours prior to detection; DMSO was used as a control. (D) Frozen section of pancreas damaged by FAEE (collected 2 hours after induction) evaluated by confocal microscopy. Scale bar: 40 μm. (E) PLA analyzed in frozen section of pancreas damaged by FAEE. Scale bar: 42 μm. (F) Whole-cell lysates of 266-6 cells transfected with Flag-PFKFB3 construct subjected to IP analysis and analyzed by Western blotting. (G) PLA was detected in 266-6 cells cotransfected with Flag-PFKFB3 construct and HA-IP3R construct. Scale bar: 50 μm. (H) 266-6 cells were transfected with full-length Flag-PFKFB3, Flag-PFKFB3-K (kinase domain only), and Flag-PFKFB3-P (phosphatase domain only) constructs for co-IP analysis. (I) 266-6 cells transfected with Flag-PFKFB3, Flag-PFKFB3-K, and Flag-PFKFB3-P constructs were analyzed by Western blotting analysis. (J) AR42J cells transfected with Flag-PFKFB3-K construct or Flag-PFKFB3-P construct; representative traces of POA induced Ca2+ elevations were recorded by High Content Analysis Imaging System. Each experiment was performed at least in triplicate.