Objective: To evaluate the effect of Cx43 gene on gap junction intercellular communication (GJIC) and proliferation of glioma cells. Methods: Cx43 cDNA was transfected into TJ905 human glioblastoma cells using lipofec...Objective: To evaluate the effect of Cx43 gene on gap junction intercellular communication (GJIC) and proliferation of glioma cells. Methods: Cx43 cDNA was transfected into TJ905 human glioblastoma cells using lipofectamine. The expression of Cx43 was identified by Northern blot analyses, in situ hybridization and immunohistochemistry. MTT assay and average number of AgNORs (Argyrophlic nuclear organizer regions) were used to determine the cell proliferation. TUNEL method was used for detection of cell apoptosis, and scrape loading and dye tranfer method for examination of GJIC. Results: The Cx43 expression was greatly upregulated when Cx43 gene was transfected into TJ905 glioma cells. The cell proliferation was inhibited while the cell apoptosis was not increased and GJIC was significantly restored in the glioma cells transfected with Cx43 gene. Conclusion: Cx43 gene has an inhibitory effect on the glioma cell proliferation, but no effect on induction of cell apoptosis. The restoration of GJIC may be the major mechanism involved in its effect. Cx43 gene can be the candidate for gene therapy of gliomas.展开更多
Objective: To study the role of connexin gene (Cx 43) on the development of glioma and the feasibility of using Cx43cDNA as a target of gene therapy of gliomas. Methods: Parental rat C6 cells and C6 cells transfected ...Objective: To study the role of connexin gene (Cx 43) on the development of glioma and the feasibility of using Cx43cDNA as a target of gene therapy of gliomas. Methods: Parental rat C6 cells and C6 cells transfected with Cx43cDNA were implanted into right caudate nucleus of SD rats as control and transfected group. Rats bearing cerebral C6 gliomas were treated with Cx43cDNA and empty vector as treated group and empty vector group. The general manifestation, survival time, MRI dynamic scanning and histopathological changes of all rats were observed. In situ hybridization and immunohisto- chemistry were used for examination of Cx43mRNA and its protein in gliomas. Average number of AgNOR staining was used for detection of cell proliferation activity, and TUNEL method for determination of cell apoptosis. Results: All rats in control and empty vector group died of cerebral gliomas within 3 weeks after implantation of C6 cells. Six out of nine rats in the transfected group and eight out of ten rats in treated group kept alive beyond 120 days with totally disappearing of the tumor foci, except one treated rat having a little residue of tumor. In gliomas of transfected and treated groups Cx43 gene expression was upregulated, proliferation activity was lowered, However, the apoptotic cells did not increase. Conclusion: The present study indicates that Cx43 gene is of crucial importance in the development of malignant glioma. It can be an effective target for gene therapy of gliomas.展开更多
基金This work was supported by the National Natural Science Foundation of China (No. 39870815).
文摘Objective: To evaluate the effect of Cx43 gene on gap junction intercellular communication (GJIC) and proliferation of glioma cells. Methods: Cx43 cDNA was transfected into TJ905 human glioblastoma cells using lipofectamine. The expression of Cx43 was identified by Northern blot analyses, in situ hybridization and immunohistochemistry. MTT assay and average number of AgNORs (Argyrophlic nuclear organizer regions) were used to determine the cell proliferation. TUNEL method was used for detection of cell apoptosis, and scrape loading and dye tranfer method for examination of GJIC. Results: The Cx43 expression was greatly upregulated when Cx43 gene was transfected into TJ905 glioma cells. The cell proliferation was inhibited while the cell apoptosis was not increased and GJIC was significantly restored in the glioma cells transfected with Cx43 gene. Conclusion: Cx43 gene has an inhibitory effect on the glioma cell proliferation, but no effect on induction of cell apoptosis. The restoration of GJIC may be the major mechanism involved in its effect. Cx43 gene can be the candidate for gene therapy of gliomas.
基金This work was supported by the National Natural Science Foundation of China (No. 39870815).
文摘Objective: To study the role of connexin gene (Cx 43) on the development of glioma and the feasibility of using Cx43cDNA as a target of gene therapy of gliomas. Methods: Parental rat C6 cells and C6 cells transfected with Cx43cDNA were implanted into right caudate nucleus of SD rats as control and transfected group. Rats bearing cerebral C6 gliomas were treated with Cx43cDNA and empty vector as treated group and empty vector group. The general manifestation, survival time, MRI dynamic scanning and histopathological changes of all rats were observed. In situ hybridization and immunohisto- chemistry were used for examination of Cx43mRNA and its protein in gliomas. Average number of AgNOR staining was used for detection of cell proliferation activity, and TUNEL method for determination of cell apoptosis. Results: All rats in control and empty vector group died of cerebral gliomas within 3 weeks after implantation of C6 cells. Six out of nine rats in the transfected group and eight out of ten rats in treated group kept alive beyond 120 days with totally disappearing of the tumor foci, except one treated rat having a little residue of tumor. In gliomas of transfected and treated groups Cx43 gene expression was upregulated, proliferation activity was lowered, However, the apoptotic cells did not increase. Conclusion: The present study indicates that Cx43 gene is of crucial importance in the development of malignant glioma. It can be an effective target for gene therapy of gliomas.