BACKGROUND: The mechanism of bone formation by osteoblastic prostate cancer metastases is not well defined. Using knockout mice, it has been demonstrated that prostaglandins produced by COX-2 are critical for fracture repair. Therefore, our aim was to determine if COX-2 plays a role in the bone formation in osteoblastic prostate cancer metastases in bone. MATERIALS AND METHODS: We assessed the influence of pharmacologic COX-2 inhibition in a SCID mouse intratibial injection model of bone metastasis using two human prostate cancer cell lines that produce either osteoblastic lesions (LAPC-9) or osteolytic lesions (PC-3, negative control). SC-58236, a COX-2 specific inhibitor, was used at a dose of 3 mg/Kg intraperitoneally 3 times per week in the Treatment groups for 8 weeks until sacrifice. RESULTS: Western blot for COX-2 demonstrated that LAPC-9 cells expressed high levels of COX-2 while PC-3 cells did not. Treatment with SC-58236 significantly reduced the size of osteoblastic lesions after LAPC-9 injection based on both radiographic and histomorphometric criteria compared to the control group. In contrast, large osteolytic lesions were seen in both control and SC-58236 treated animals after PC-3 cell injections. The results of this study indicate that COX-2 inhibition can decrease the size of osteoblastic lesions produced by LAPC-9, a human prostate cancer cell line that expresses high levels of COX-2. This treatment had no effect on the osteolytic activity of PC-3 cells. CONCLUSION: These findings suggest that the progression of osteoblastic metastases induced by human prostate cancer cells may be limited by COX-2 inhibitors.
BACKGROUND: The mechanism of bone formation by osteoblastic prostate cancer metastases is not well defined. Using knockout mice, it has been demonstrated that prostaglandins produced by COX-2 are critical for fracture repair. Therefore, our aim was to determine if COX-2 plays a role in the bone formation in osteoblastic prostate cancer metastases in bone. MATERIALS AND METHODS: We assessed the influence of pharmacologic COX-2 inhibition in a SCIDmouse intratibial injection model of bone metastasis using two humanprostate cancer cell lines that produce either osteoblastic lesions (LAPC-9) or osteolytic lesions (PC-3, negative control). SC-58236, a COX-2 specific inhibitor, was used at a dose of 3 mg/Kg intraperitoneally 3 times per week in the Treatment groups for 8 weeks until sacrifice. RESULTS: Western blot for COX-2 demonstrated that LAPC-9 cells expressed high levels of COX-2 while PC-3 cells did not. Treatment with SC-58236 significantly reduced the size of osteoblastic lesions after LAPC-9 injection based on both radiographic and histomorphometric criteria compared to the control group. In contrast, large osteolytic lesions were seen in both control and SC-58236 treated animals after PC-3 cell injections. The results of this study indicate that COX-2 inhibition can decrease the size of osteoblastic lesions produced by LAPC-9, a humanprostate cancer cell line that expresses high levels of COX-2. This treatment had no effect on the osteolytic activity of PC-3 cells. CONCLUSION: These findings suggest that the progression of osteoblastic metastases induced by humanprostate cancer cells may be limited by COX-2 inhibitors.
Authors: Wellington K Hsu; Mandeep S Virk; Brian T Feeley; David B Stout; Arion F Chatziioannou; Jay R Lieberman Journal: J Nucl Med Date: 2008-02-20 Impact factor: 10.057
Authors: M José Molina-Garrido; A Mora; Encarna Andrada; Carmen Guillén-Ponce; Víctor Cánovas; M Guirado-Risueño; Elisa Pastor; M Angeles Molina; M Jesús Molina; Alberto Martín Hidalgo; Alfredo Carrato Journal: Clin Transl Oncol Date: 2008-04 Impact factor: 3.405
Authors: Omer Raheem; Anna A Kulidjian; Christina Wu; Young B Jeong; Tomonori Yamaguchi; Kristen M Smith; Daniel Goff; Heather Leu; Sheldon R Morris; Nicholas A Cacalano; Koichi Masuda; Catriona H M Jamieson; Christopher J Kane; Christina A M Jamieson Journal: J Transl Med Date: 2011-10-28 Impact factor: 5.531