1. Low Dose Fractionated Radiation Potentiates the Effects of Taxotere in Nude Mice Xenografts of Squamous Cell Carcinoma of Head and Neck
- Author
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Mohammed Mohiuddin, Paul M. Spring, Joseph Valentino, Mansoor M. Ahmed, Raleigh O. Jones, Shahin Shajahan, Brandee Brown, Susanne M. Arnold, Subodh M. Lele, and Swatee Dey
- Subjects
biology ,Dose fractionation ,Cell Biology ,Cell cycle ,biology.organism_classification ,medicine.disease ,Bcl-2-associated X protein ,Nude mouse ,Radiation sensitivity ,Docetaxel ,Apoptosis ,medicine ,biology.protein ,Cancer research ,Carcinoma ,Molecular Biology ,Developmental Biology ,medicine.drug - Abstract
This study evaluated the combined effect of Low Dose Fractionated Radiation (LDFRT) and Taxotere (TXT) therapy on the growth of SCCHN (squamous cell carcinoma of head and neck; SQ-20B, a p53 mutant SCCHN cell line) tumors in a nude mouse model to exploit the increased hyper radiation sensitivity (HRS) phenomenon present in G(2)/M cell cycle phase when induced by low doses of radiation that was demonstrated in in vitro settings. Seventy-eight animals were randomized into one control group and 5 treatment groups (treatments were administered weekly for six weeks). Tumor regression was observed in all the groups, however, tumor regression was not significant in 2 Gy or TXT or 2 Gy plus TXT treated groups when compared to control group. The tumor regression was significant in both the LDFRT group (p < 0.0043) and LDFRT + TXT group (p < 0.0006) when compared to other groups. A significantly prolonged tumor growth delay was observed in LDFRT group (p < 0.0081). Importantly, in combination of TXT and LDFRT, no tumor regrowth was observed in 12 out of 13 mice since LDFRT + TXT treatment caused a sustained regression of tumors for 9 weeks. Molecular analysis of resected tumor specimens demonstrated that Bax levels were elevated with concomitant increase in cytochrome c release to the cytosol of the treatment Group VI. These findings strongly suggest that LDFRT can be used in combination with TXT to potentiate the effects of drug on tumor regression through an apoptotic mode of death. Furthermore, the G(2)/M cell cycle arrest by TXT appears to be an important component of the enhanced apoptotic effect of TXT + LDFRT combined treatment.
- Published
- 2004