Abstract
Pancreatic adenocarcinoma or pancreatic cancer is often diagnosed at a very late stage at which point treatment options are minimal. Current chemotherapeutic interventions prolong survival marginally, thereby emphasizing the acute need for better treatment options to effectively manage this disease. Studies from different laboratories have shown that the Alzheimer disease-associated amyloid precursor protein (APP) is overexpressed in various cancers but its significance is not known. Here we sought to determine the role of APP in pancreatic cancer cell survival and proliferation. Our results show that pancreatic cancer cells secrete high levels of sAPPα, the α-secretase cleaved ectodomain fragment of APP, as compared with normal non-cancerous cells. Treatment of cells with batimastat or GI254023X, inhibitors of the α-secretase ADAM10, prevented sAPPα generation and reduced cell survival. Additionally, inhibition of sAPPα significantly reduced anchorage independent growth of the cancer cells. The effect of batimastat on cell survival and colony formation was enhanced when sAPPα downregulation was combined with gemcitabine treatment. Moreover, treatment of batimastat-treated cells with recombinant sAPPα reversed the inhibitory effect of the drug thereby indicating that sAPPα can indeed induce proliferation of cancer cells. Down-regulation of APP and ADAM10 brought about similar results, as did batimastat treatment, thereby confirming that APP processing is important for growth and proliferation of these cells. These results suggest that inhibition of sAPPα generation might enhance the effectiveness of the existing chemotherapeutic regimen for a better outcome.
Highlights
Amyloid precursor protein (APP) and ADAM10, main ␣-secretase involved in generation of secreted APP, are overexpressed in pancreatic cancer
Pancreatic Cancer Cells Express High Levels of APP and ADAM10—Pancreatic cancer cell lines CD18, MiaPaCa2, AsPC1, and Panc1 were compared with non-cancerous, immortalized HPDE6E7 pancreatic epithelial cells for APP and ADAM10 levels by Western blotting and it was found that most pancreatic cancer cells express higher levels of APP and ADAM10
The function of sAPP␣ has been thought to be neuroprotective, because its formation provides an alternate pathway of APP processing, which prevents the formation of A peptides that are symptomatic of Alzheimer disease (AD) [32,33,34]
Summary
Amyloid precursor protein (APP) and ADAM10, main ␣-secretase involved in generation of secreted APP (sAPP␣), are overexpressed in pancreatic cancer. Results presented here show that, as compared with an MMP inhibitor GM6001, compounds such as batimastat and GI254023X, which are more specific inhibitors of ADAM10, robustly inhibit cancer cell survival At low concentrations, these drugs abolish generation of sAPP␣, and inhibit anchorage independent growth and cell proliferation in pancreatic cancer cells. These drugs abolish generation of sAPP␣, and inhibit anchorage independent growth and cell proliferation in pancreatic cancer cells This inhibitory effect is enhanced when ADAM10 inhibition is combined with gemcitabine treatment. These results indicate an important role of APP in promoting growth of pancreatic ductal adenocarcinomas (PDACs) and suggest that inhibitors of sAPP␣ generation may increase the efficacy of the current therapies used for treating pancreatic cancer
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