塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

塞来昔布对人鼻咽癌CNE-2细胞生长抑制及放射增敏研究

Objective To investigate the growth inhibition and radiosensitization of Celecoxib in hu-man nasopharyngeal carcinoma cell line CNE-2. Methods CNE-2 growth inhibition by Celecoxib was eval-uated by MTT method. Apoptosis-related changes in morphology were observed by transmission electron mi-croscopy (TEM). Cell cycle distribution and apoptosis rate were measured by flowcytometry (FCM). The ex-pression of COX-2 protein was observed by SP method after the treatment of Celecoxib. Cells were randomly planted into four groups: irradiation control(Ci), drug group(Cd), irradiation group(R), and Celecoxib plus irradiation group(D+R). Single irradiation of 2,4,6,8,and 10 Gy were administered for colonogenic assay. Cell cycle distribution and apoptosis rate were analyzed at 6 Gy irradiation. Results The growth of CNE-2 cell was inhibited by celecoxib in a dose-and time-dependent manner, the IC50 was 80 μmol/L After the treatment, cell ratio of GO and G, phases was increased (47.03±2.76 vs 56.17±1.95, t=4.68, P= 0.010), whereas the ratio of S and G2/M phases was decreased (33.07±1.86 vs 24.87±1.76, t=5.54, P = 0.010; 19.30±0.53: 17.73±0.83, t=2.75, P=0.050), and the apoptosis rate was increased (1.57±0.47:10.47±0.31, t = 27.39, P = 0.000) in a dose-dependent manner. Apoptosis with nuclear chromatin condensation, fragmentation and cell shrinkage was found by TEM. SP method showed that Celeib decreased COX-2 expression (17.48±0.34 vs 12.82±0.51,t=13.20,P =0.00). The sensitivity ratio(D0) was 1.15. FCM showed that the percentage of cells in G2/M phase was significanty more in R and D+R groups than in Ci and Cd groups (68.00±1.65,54.27±5.74,17.60±0.80,14.86±1.23, t=47.70,P=0.000; t=11.63, P=0.000), and also significantly different between R group and D + R group (t=3.99, P= 0.020). The apoptosis rate was higher in R and D + R groups than Ci and Cd groups(4.83±0.97,9.50± 1.35,1.33±0.86 and 2.28±0.42,t=4.67,P=0.010;t=8.81, P=0.000), D + R group than R group(t =4.85,P=0.010). Conclusions Celecoxib can markedly inhibit the growth and induce apoptosis in CNE-2 cells,which may depend on COX-2 pathway. Celeeoxib potently enhances the radiosensitivity of CNE-2 cells,which may due to the repair inhibit of radiation-induced DNA damage, inhibit of cell proliferation,and enhancement of cell apoptosis after irradiation.     

贝伐单抗联合放射方案的实验研究

Objective To evaluate the impact of the hypoxia induced by bevacizumab on the antitumor effect in combining with irradiation in CNI-H441 xenografts in mice. Methods Bevacizumab of 5 mg/kg mouse for groups of control, bevacizumab alone, irradiation alone, earlier combination (EC), and later combination (LC) were initially injected peritoneally. Single irradiation of 14 Gy (122Sc γ-ray) was given at the 4th hour for the group of irradiation alone, 24th hour for EC group, and 72nd hour for LC group after the initial injection. Tumor hypoxia, micro vessels density and permeability of tumor vasculature,pathological responses, apoptosis, and tumor growth delay curve were evaluated after using bevacizumab and/or irradiation. Results Although it was lower than the control at the 24 hr after using bevacizumab (3. 1 × 106: 6.1 × 106 ;t = - 1.73 ,P > 0. 05), the HIF-1α rapidly increased to 3 - 4 times and 2 - 3 times of the control at day 3 (7.4 × 106: 20. 4 × 106; t = 2. 36, P < 0. 05) and lasted until day 10, which was consistent with the changes of tumor function vessels count. The count of residual micro vessel density count in LC group was higher than that in groups of EC and irradiation at day 3 after irradiation (9. 33: 3. 17;t =- 2. 43, P < 0. 05). The apoptotic count of tumor cells was lower in LC group than that in EC group (23.33: 43.83; t= 2.54, P< 0.05, at day 3 after radiation). Tumor growth delay time of LC groupwas shorter than that of EC groups (10. 5 days vs. 23. 0 days , t = 2. 67 , P < 0. 05) . Conclusions Hypoxia level induced by bevacizumab decreases the antitumor effect in later combination of bevacizumab and irradiaion. It shows a time window that determines whether the combination of bevacizumab and irradiation will be benefit or diverse.