Obje, etive To analyze how the infection of human papillomavirus 16 ( HPV16 ) affects expression of DNA poly- merase β(DNA polB) with the aim of probing the mechanism of over-expression of DNA polB in human cance...Obje, etive To analyze how the infection of human papillomavirus 16 ( HPV16 ) affects expression of DNA poly- merase β(DNA polB) with the aim of probing the mechanism of over-expression of DNA polB in human cancers. Methods Four fragments of human DNA polB promoter were amplified and constructed into luciferase reporter vec- tor pGL-Basic, generating pGL-BP, pGL-BMH, pGL-BMS, and pGL-BAT constructs respectively, and co-transfected with HPV16 or HPV6 into Hep2 cells. Luciferase activity was assayed 48 hours after transfectiorL Semi-quantitative RT- PCR was used to measure mRNA expression of endogenous DNA polB. Immunohistochemistry and in situ hybridization were used to analyze DNA polB expression and HPV16 or HPV6 infection in 38 cases of cervical lesions respectively. Results With co-transfection of HPV16 and DNA polB promoter-driving reporters into Hep2 cells, pGL-BP re- porter in full-length DNA polB promoter presented markedly elevated luciferase activities ( P 〈 0.05 ). However, the other three mutant reporters: pGL-BMH, pGL-BMS, and pGL-BAT, generated no reporting activities in the presence of HPV16 (P 〉0.05 ). On the contrary, all of polB promoter reporters were little stimulated in co-transfection of HPV6 (P 〉0.05 ). The transfection of HPV16 could enhance the endogenous polB mRNA expression compared with that of HPV6 (3.42 vs. 0.80, P 〈0.05). The DNA polB expression was found in 8 of 10 HPV16-positive cervical intraepi- thelial neoplasia grade Ⅲ( CIN Ⅲ) cases, while was only found in 3 of 11 HPV6-positive condyloma accuminatum cases, but was negative in all chronic cervicitis cases. The correlation of DNA polB expression with HPV16 infection in cervical lesions was significant ( P 〈0.05 ). Conclusions HPV16 is able to specifically stimulate the expression of DNA polB in human epithelial cells through interaction with the core upstream regulatory sequences of DNA polB promoter. Over-expression of DNA polB might be an explanation for the molecular mechanism underlying HPV-related human cancers.展开更多
文摘Obje, etive To analyze how the infection of human papillomavirus 16 ( HPV16 ) affects expression of DNA poly- merase β(DNA polB) with the aim of probing the mechanism of over-expression of DNA polB in human cancers. Methods Four fragments of human DNA polB promoter were amplified and constructed into luciferase reporter vec- tor pGL-Basic, generating pGL-BP, pGL-BMH, pGL-BMS, and pGL-BAT constructs respectively, and co-transfected with HPV16 or HPV6 into Hep2 cells. Luciferase activity was assayed 48 hours after transfectiorL Semi-quantitative RT- PCR was used to measure mRNA expression of endogenous DNA polB. Immunohistochemistry and in situ hybridization were used to analyze DNA polB expression and HPV16 or HPV6 infection in 38 cases of cervical lesions respectively. Results With co-transfection of HPV16 and DNA polB promoter-driving reporters into Hep2 cells, pGL-BP re- porter in full-length DNA polB promoter presented markedly elevated luciferase activities ( P 〈 0.05 ). However, the other three mutant reporters: pGL-BMH, pGL-BMS, and pGL-BAT, generated no reporting activities in the presence of HPV16 (P 〉0.05 ). On the contrary, all of polB promoter reporters were little stimulated in co-transfection of HPV6 (P 〉0.05 ). The transfection of HPV16 could enhance the endogenous polB mRNA expression compared with that of HPV6 (3.42 vs. 0.80, P 〈0.05). The DNA polB expression was found in 8 of 10 HPV16-positive cervical intraepi- thelial neoplasia grade Ⅲ( CIN Ⅲ) cases, while was only found in 3 of 11 HPV6-positive condyloma accuminatum cases, but was negative in all chronic cervicitis cases. The correlation of DNA polB expression with HPV16 infection in cervical lesions was significant ( P 〈0.05 ). Conclusions HPV16 is able to specifically stimulate the expression of DNA polB in human epithelial cells through interaction with the core upstream regulatory sequences of DNA polB promoter. Over-expression of DNA polB might be an explanation for the molecular mechanism underlying HPV-related human cancers.
