Abstract
Emerging evidence demonstrates that the blockade of intracellular Ca2+ signals may protect pancreatic acinar cells against Ca2+ overload, intracellular protease activation, and necrosis. The activation of cannabinoid receptor subtype 2 (CB2R) prevents acinar cell pathogenesis in animal models of acute pancreatitis. However, whether CB2Rs modulate intracellular Ca2+ signals in pancreatic acinar cells is largely unknown. We evaluated the roles of CB2R agonist, GW405833 (GW) in agonist-induced Ca2+ oscillations in pancreatic acinar cells using multiple experimental approaches with acute dissociated pancreatic acinar cells prepared from wild type, CB1R-knockout (KO), and CB2R-KO mice. Immunohistochemical labeling revealed that CB2R protein was expressed in mouse pancreatic acinar cells. Electrophysiological experiments showed that activation of CB2Rs by GW reduced acetylcholine (ACh)-, but not cholecystokinin (CCK)-induced Ca2+ oscillations in a concentration-dependent manner; this inhibition was prevented by a selective CB2R antagonist, AM630, or was absent in CB2R-KO but not CB1R-KO mice. In addition, GW eliminated L-arginine-induced enhancement of Ca2+ oscillations, pancreatic amylase, and pulmonary myeloperoxidase. Collectively, we provide novel evidence that activation of CB2Rs eliminates ACh-induced Ca2+ oscillations and L-arginine-induced enhancement of Ca2+ signaling in mouse pancreatic acinar cells, which suggests a potential cellular mechanism of CB2R-mediated protection in acute pancreatitis.
Highlights
This inhibition was prevented by a selective CB2R antagonist, AM630, or was absent in CB2R-KO but not CB1R-KO mice
We found high densities of CB2R immunolabeling in pancreatic acinar cells (Fig. 1Cb,d)
These results suggest that CB2R protein is expressed in dissociated mouse pancreatic acinar cells
Summary
This inhibition was prevented by a selective CB2R antagonist, AM630, or was absent in CB2R-KO but not CB1R-KO mice. We provide novel evidence that activation of CB2Rs eliminates ACh-induced Ca2+ oscillations and L-arginine-induced enhancement of Ca2+ signaling in mouse pancreatic acinar cells, which suggests a potential cellular mechanism of CB2Rmediated protection in acute pancreatitis. Emerging evidence demonstrates that a primary event initiating the process of acute pancreatitis is the excessive release of Ca2+ from intracellular stores[3]. CB2R agonists may be useful candidates for treating inflammatory diseases and pain[8] Consistent with these findings, increased CB2R expression has been observed in spinal cord, dorsal root ganglion, and activated microglia in a rodent model of neuropathic pain, as well as in human hepatocellular carcinoma tumor samples[9]. Emerging data demonstrate that CB2R mRNA and protein are expressed in pancreatic acinar cells, and activation of these CB2Rs prevents acinar cell pathogenesis in an animal model of pancreatitis[10].
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