Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines

Purpose: Glioblastoma multiforme (GBM) is an aggressive primary brain tumor that is radio-resistant and recurs despite aggressive surgery, chemo, and radiotherapy. Autotaxin (ATX) is over expressed in various cancers including GBM and is implicated in tumor progression, invasion, and angiogenesis. U...

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Autores principales: Bhave, Sandeep R., Dadey, David Y. A., Karvas, Rowan M., Ferraro, Daniel J., Kotipatruni, Rama P., Jaboin, Jerry J., Hallahan, Andrew N., DeWees, Todd A., Linkous, Amanda G., Hallahan, Dennis E., Thotala, Dinesh
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2013
Materias:
Oncology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3775313/
https://www.ncbi.nlm.nih.gov/pubmed/24062988
http://dx.doi.org/10.3389/fonc.2013.00236
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author Bhave, Sandeep R.
Dadey, David Y. A.
Karvas, Rowan M.
Ferraro, Daniel J.
Kotipatruni, Rama P.
Jaboin, Jerry J.
Hallahan, Andrew N.
DeWees, Todd A.
Linkous, Amanda G.
Hallahan, Dennis E.
Thotala, Dinesh
author_facet Bhave, Sandeep R.
Dadey, David Y. A.
Karvas, Rowan M.
Ferraro, Daniel J.
Kotipatruni, Rama P.
Jaboin, Jerry J.
Hallahan, Andrew N.
DeWees, Todd A.
Linkous, Amanda G.
Hallahan, Dennis E.
Thotala, Dinesh
author_sort Bhave, Sandeep R.
collection PubMed
description Purpose: Glioblastoma multiforme (GBM) is an aggressive primary brain tumor that is radio-resistant and recurs despite aggressive surgery, chemo, and radiotherapy. Autotaxin (ATX) is over expressed in various cancers including GBM and is implicated in tumor progression, invasion, and angiogenesis. Using the ATX specific inhibitor, PF-8380, we studied ATX as a potential target to enhance radiosensitivity in GBM. Methods and Materials: Mouse GL261 and Human U87-MG cells were used as GBM cell models. Clonogenic survival assays and tumor transwell invasion assays were performed using PF-8380 to evaluate role of ATX in survival and invasion. Radiation dependent activation of Akt was analyzed by immunoblotting. Tumor induced angiogenesis was studied using the dorsal skin fold model in GL261. Heterotopic mouse GL261 tumors were used to evaluate the efficacy of PF-8380 as a radiosensitizer. Results: Pre-treatment of GL261 and U87-MG cells with 1 μM PF-8380 followed by 4 Gy irradiation resulted in decreased clonogenic survival, decreased migration (33% in GL261; P = 0.002 and 17.9% in U87-MG; P = 0.012), decreased invasion (35.6% in GL261; P = 0.0037 and 31.8% in U87-MG; P = 0.002), and attenuated radiation-induced Akt phosphorylation. In the tumor window model, inhibition of ATX abrogated radiation induced tumor neovascularization (65%; P = 0.011). In a heterotopic mouse GL261 tumors untreated mice took 11.2 days to reach a tumor volume of 7000 mm(3), however combination of PF-8380 (10 mg/kg) with irradiation (five fractions of 2 Gy) took more than 32 days to reach a tumor volume of 7000 mm(3). Conclusion: Inhibition of ATX by PF-8380 led to decreased invasion and enhanced radiosensitization of GBM cells. Radiation-induced activation of Akt was abrogated by inhibition of ATX. Furthermore, inhibition of ATX led to diminished tumor vascularity and delayed tumor growth. These results suggest that inhibition of ATX may ameliorate GBM response to radiotherapy.
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spelling pubmed-37753132013-09-23 Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines Bhave, Sandeep R. Dadey, David Y. A. Karvas, Rowan M. Ferraro, Daniel J. Kotipatruni, Rama P. Jaboin, Jerry J. Hallahan, Andrew N. DeWees, Todd A. Linkous, Amanda G. Hallahan, Dennis E. Thotala, Dinesh Front Oncol Oncology Purpose: Glioblastoma multiforme (GBM) is an aggressive primary brain tumor that is radio-resistant and recurs despite aggressive surgery, chemo, and radiotherapy. Autotaxin (ATX) is over expressed in various cancers including GBM and is implicated in tumor progression, invasion, and angiogenesis. Using the ATX specific inhibitor, PF-8380, we studied ATX as a potential target to enhance radiosensitivity in GBM. Methods and Materials: Mouse GL261 and Human U87-MG cells were used as GBM cell models. Clonogenic survival assays and tumor transwell invasion assays were performed using PF-8380 to evaluate role of ATX in survival and invasion. Radiation dependent activation of Akt was analyzed by immunoblotting. Tumor induced angiogenesis was studied using the dorsal skin fold model in GL261. Heterotopic mouse GL261 tumors were used to evaluate the efficacy of PF-8380 as a radiosensitizer. Results: Pre-treatment of GL261 and U87-MG cells with 1 μM PF-8380 followed by 4 Gy irradiation resulted in decreased clonogenic survival, decreased migration (33% in GL261; P = 0.002 and 17.9% in U87-MG; P = 0.012), decreased invasion (35.6% in GL261; P = 0.0037 and 31.8% in U87-MG; P = 0.002), and attenuated radiation-induced Akt phosphorylation. In the tumor window model, inhibition of ATX abrogated radiation induced tumor neovascularization (65%; P = 0.011). In a heterotopic mouse GL261 tumors untreated mice took 11.2 days to reach a tumor volume of 7000 mm(3), however combination of PF-8380 (10 mg/kg) with irradiation (five fractions of 2 Gy) took more than 32 days to reach a tumor volume of 7000 mm(3). Conclusion: Inhibition of ATX by PF-8380 led to decreased invasion and enhanced radiosensitization of GBM cells. Radiation-induced activation of Akt was abrogated by inhibition of ATX. Furthermore, inhibition of ATX led to diminished tumor vascularity and delayed tumor growth. These results suggest that inhibition of ATX may ameliorate GBM response to radiotherapy. Frontiers Media S.A. 2013-09-17 /pmc/articles/PMC3775313/ /pubmed/24062988 http://dx.doi.org/10.3389/fonc.2013.00236 Text en Copyright © 2013 Bhave, Dadey, Karvas, Ferraro, Kotipatruni, Jaboin, Hallahan, DeWees, Linkous, Hallahan and Thotala. http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Oncology
Bhave, Sandeep R.
Dadey, David Y. A.
Karvas, Rowan M.
Ferraro, Daniel J.
Kotipatruni, Rama P.
Jaboin, Jerry J.
Hallahan, Andrew N.
DeWees, Todd A.
Linkous, Amanda G.
Hallahan, Dennis E.
Thotala, Dinesh
Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title_full Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title_fullStr Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title_full_unstemmed Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title_short Autotaxin Inhibition with PF-8380 Enhances the Radiosensitivity of Human and Murine Glioblastoma Cell Lines
title_sort autotaxin inhibition with pf-8380 enhances the radiosensitivity of human and murine glioblastoma cell lines
topic Oncology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3775313/
https://www.ncbi.nlm.nih.gov/pubmed/24062988
http://dx.doi.org/10.3389/fonc.2013.00236
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