Abstract | BACKGROUND: METHODS: We employed cancer cells' sphere model to target hypoxia. Confocal imaging was used to analyze hypoxia and expression of specific biomarkers in spheres following various treatments (radiation and/or etomoxir). RESULTS:
Etomoxir (32.5 μM) treatment improved the radiation (2.5 Gy) efficacy against growth of lung adenocarcinoma H460 spheres. More importantly, radiation and etomoxir combination significantly reduced the hypoxic regions (pimonidazole+ areas) in H460 spheres compared to either treatment alone. Also, etomoxir and radiation combination treatment reduced the protein level of biomarkers for proliferation (Ki-67 and cyclin D1), stemness (CD44) and β-oxidation (CPT1A) in H460 spheres. We observed similar efficacy of etomoxir against growth of prostate cancer LNCaP cells' spheres when combined with radiation. Further, radiation treatment strongly reduced the hypoxic regions (pimonidazole+ areas) in CPT1 knockdown LNCaP cells' spheres. CONCLUSIONS: Together, these results offer a unique approach to target hypoxia in solid tumors via combining etomoxir with radiation, thereby improving therapeutic efficacy.
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Authors | Arpit Dheeraj, Chapla Agarwal, Isabel R Schlaepfer, David Raben, Rana Singh, Rajesh Agarwal, Gagan Deep |
Journal | Hypoxia (Auckland, N.Z.)
(Hypoxia (Auckl))
Vol. 6
Pg. 23-33
( 2018)
ISSN: 2324-1128 [Print] New Zealand |
PMID | 30175155
(Publication Type: Journal Article)
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