TY - JOUR
T1 - The gep proto-oncogene Gα13 mediates lysophosphatidic acid-mediated migration of pancreatic cancer cells
AU - Gardner, Jacob A.
AU - Ha, Ji Hee
AU - Jayaraman, Muralidharan
AU - Dhanasekaran, Danny N.
PY - 2013/7
Y1 - 2013/7
N2 - Objectives: Tumor microenvironment, defined by a variety of growth factors including lysophosphatidic acid (LPA), whose levels are increased in pancreatic cancer patients, plays a major role in the genesis and progression of pancreatic cancer. Because the gep proto-oncogenes, Gα12 and Gα13, are implicated in LPA-stimulated oncogenic signaling, this study is focused on evaluating the role of these proto-oncogenes in LPA-stimulated invasive migration of pancreatic cancer cells. Methods: Effect of LPA on the migration and proliferation of pancreatic cancer cells was assessed using BxPC3, Dan-G, MDAPanc-28, Panc-1, and PaCa-2 cell lines. The role of Gα13 in the migration of pancreatic cancer cells was interrogated by disrupting lysophosphatidic acid receptor-Gα13 interaction using CT13, a dominant negative mutant of Gα13, and by silencing the expression of Gα13. Results: Results indicate that LPA stimulates the migration of pancreatic cancer cells and such LPA-stimulated migratory response is mediated by Gα13. Furthermore, the results establish that the silencing of Gα13, but not Gα12, abrogates LPA-stimulated invasive migration of pancreatic cancer cells. Conclusions: These results report for the first time a critical role for Gα13 in LPA-stimulated invasive migration of pancreatic cancer cells. These findings identify LPA-lysophosphatidic acid receptor- Gα13 signaling node as a novel therapeutic target for pancreatic cancer treatment and control.
AB - Objectives: Tumor microenvironment, defined by a variety of growth factors including lysophosphatidic acid (LPA), whose levels are increased in pancreatic cancer patients, plays a major role in the genesis and progression of pancreatic cancer. Because the gep proto-oncogenes, Gα12 and Gα13, are implicated in LPA-stimulated oncogenic signaling, this study is focused on evaluating the role of these proto-oncogenes in LPA-stimulated invasive migration of pancreatic cancer cells. Methods: Effect of LPA on the migration and proliferation of pancreatic cancer cells was assessed using BxPC3, Dan-G, MDAPanc-28, Panc-1, and PaCa-2 cell lines. The role of Gα13 in the migration of pancreatic cancer cells was interrogated by disrupting lysophosphatidic acid receptor-Gα13 interaction using CT13, a dominant negative mutant of Gα13, and by silencing the expression of Gα13. Results: Results indicate that LPA stimulates the migration of pancreatic cancer cells and such LPA-stimulated migratory response is mediated by Gα13. Furthermore, the results establish that the silencing of Gα13, but not Gα12, abrogates LPA-stimulated invasive migration of pancreatic cancer cells. Conclusions: These results report for the first time a critical role for Gα13 in LPA-stimulated invasive migration of pancreatic cancer cells. These findings identify LPA-lysophosphatidic acid receptor- Gα13 signaling node as a novel therapeutic target for pancreatic cancer treatment and control.
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U2 - 10.1097/MPA.0b013e318279c577
DO - 10.1097/MPA.0b013e318279c577
M3 - Article
C2 - 23508014
AN - SCOPUS:84880061210
SN - 0885-3177
VL - 42
SP - 819
EP - 828
JO - Pancreas
JF - Pancreas
IS - 5
ER -