RÉSUMÉ
Objective To investigate the expression of DRAM in breast cancer cell line MCF-7 in radiation-induced autophagy. Methods GFP-LC3 transfection method was used to observe autophagy bubble.Real time-PCR was used to detect DRAM and MAPLC3 from transcriptional and translational level,respectively. The silencing vector from gene engineering was introduced by calcium phosphate transfection.Results Compared with the control group,GFP-LC3 increased significantly after 8 Gy irradiation by immunofluorescent assay,and the level of MAP-LC3 expression was higher than control group after 8 Gy irradiation by Western blot ( F =5.38,8.72,10.63,15.23,20.78 and 55.23,P < 0.05 ).DRAM protein expression increased significantly at 2 h in the 8 Gy time-dose study,up to maximum at the 32 h( F =116.34,P < 0.05 ).In DRAM model,the expression of LC3 and DRAM decreased significantly (F =20.36 and 40.35,P < 0.05 ) and DRAM expression increased 8 Gy post-irradiation,but still lower than that in 8 Gy irradiation wild-type group.The LC3 expression also decreasaed 8 Gy post-irradiation(F =50.34,P < 0.05 ).Conclusions DRAM plays an important role in irradiation-induced autophagy in breast cancer cell.DRAM might participate in the process and serve as a theoretical target for clinical treatment of breast cancer.
RÉSUMÉ
Objective To study the clinical significance of the content of ? 2-microglubin and activity of ?-glucuronidase in cerebrospinal fluid (CSF) of patients with cerebral tumor. Methods The activities of ? 2-microglubin and ?-glucuronidase in CSF of patients with cerebral tumor and non- cerebral tumor were analyzed by radioimmunoassay and enzyme-linked immunosorbent assay (ELISA) respectively. Results the activities of ? 2-microglubin and ?-glucuronidase in cerebral malignancy were obviously higher than that of cerebral benign tumor (P