PURPOSE: This study aimed to examine the effect of the novel recombinant human endostatin (rh-Endo) protein on tumor vasculature, and to explore and evaluate the optimal scheduling of rh-Endo and radiotherapy (RT). METHODS: Tumor-perfusion parameters and hypoxia were monitored after rh-Endo treatment in 10 non-small cell lung-cancer (NSCLC) patients. Eight-week female C57BL/6J mice were randomized to receive rh-Endo or control (saline) once daily for 12 days when Lewis lung carcinoma (LLC) reached approximately 100-150 mm(3). On planned days, tumors were measured for cell apoptosis, microvessel density, pericytes, blood-vessel morphology, and tumor hypoxia. The tumor response under different combinations of rh-Endo and RT schedules was evaluated. RESULTS: Tumor hypoxia was significantly reduced 5 days after rh-Endo in NSCLC patients, and a similar result was found in the LLC mouse model. The anti-tumor effect was markedly enhanced when RT was administered within the remodeling period compared to any other treatment schedule. rh-Endo treatment remodeled the tumor vasculature after 5 days by reducing microvessel density and increasing pericytic coverage of the vessel endothelium. CONCLUSION: This study demonstrated decreased hypoxia in animals and patients upon rh-Endo treatment, which also enhanced the radioresponse within the vasculature-remodeling period. The optimal clinical combination of rh-Endo and RT warrants further investigation.
PURPOSE: This study aimed to examine the effect of the novel recombinant humanendostatin (rh-Endo) protein on tumor vasculature, and to explore and evaluate the optimal scheduling of rh-Endo and radiotherapy (RT). METHODS:Tumor-perfusion parameters and hypoxia were monitored after rh-Endo treatment in 10 non-small cell lung-cancer (NSCLC) patients. Eight-week female C57BL/6J mice were randomized to receive rh-Endo or control (saline) once daily for 12 days when Lewis lung carcinoma (LLC) reached approximately 100-150 mm(3). On planned days, tumors were measured for cell apoptosis, microvessel density, pericytes, blood-vessel morphology, and tumor hypoxia. The tumor response under different combinations of rh-Endo and RT schedules was evaluated. RESULTS:Tumor hypoxia was significantly reduced 5 days after rh-Endo in NSCLCpatients, and a similar result was found in the LLC mouse model. The anti-tumor effect was markedly enhanced when RT was administered within the remodeling period compared to any other treatment schedule. rh-Endo treatment remodeled the tumor vasculature after 5 days by reducing microvessel density and increasing pericytic coverage of the vessel endothelium. CONCLUSION: This study demonstrated decreased hypoxia in animals and patients upon rh-Endo treatment, which also enhanced the radioresponse within the vasculature-remodeling period. The optimal clinical combination of rh-Endo and RT warrants further investigation.
Authors: Erqi L Pollom; Lei Deng; Reetesh K Pai; J Martin Brown; Amato Giaccia; Billy W Loo; David B Shultz; Quynh Thu Le; Albert C Koong; Daniel T Chang Journal: Int J Radiat Oncol Biol Phys Date: 2015-07-01 Impact factor: 7.038
Authors: Thomas E Ichim; Shuang Li; Hong Ma; Yuliya V Yurova; Julia S Szymanski; Amit N Patel; Santosh Kesari; Wei-Ping Min; Samuel C Wagner Journal: J Transl Med Date: 2015-03-14 Impact factor: 5.531