AIM: To evaluate whether intratumoral expression of measles virus fusogenic membrane glycoproteins H and F (MV-FMG), encoded by an adenovirus vector Ad.MV-HI F, alone or in combination with local coexpression of cy...AIM: To evaluate whether intratumoral expression of measles virus fusogenic membrane glycoproteins H and F (MV-FMG), encoded by an adenovirus vector Ad.MV-HI F, alone or in combination with local coexpression of cytokines (IL-2, IL-12, IL-18, IL-21 or GM-CSF), can serve as a platform for inducing tumor-specific immune responses in colon cancer.METHODS: We used confocal laser scanning microscopy and flow cytometry to analyze cell-cell fusion after expression of MV-FMG by dye colocalization. In a syngeneic bilateral subcutaneous MC38 and Colon26 colon cancer model in C57BL/6 and BALB/c mice, we assessed the effect on both the directly vector-treated tumor as well as the contralateral, not directly vector- treated tumor. We assessed the induction of a tumorspecific cytotoxic T lymphocyte (CTL) response with a lactate dehydrogenase (LDH) release assay.RESULTS: We demonstrated in vitro that transduction of MC38 and Colon26 cells with Ad.MV-H/F resulted in dye colocalization, indicative of cell-cell fusion, in addition, in the syngeneic bilateral tumor model we demonstrated a significant regression of the directly vector-inoculated tumor upon intratumoral expression of MV-FMG alone or in combination with the tested cytokines. We observed the highest anti-neoplastic efficacy with MV-FMG and lL-21 coexpression. The degree of tumor regression of the not directly vector-treated tumor correlated with the anti-neoplastic response of the directly vector-treated tumor. This regression was mediated by a tumor-specific CTL response.CONCLUSION: Our data indicate that intratumoral expression of measles virus fusogenic membrane glycoproteins is a promising tool both for direct tumor treatment as well as for tumor vaccination approaches that can be further enhanced by cytokine coexpression.展开更多
To construct an expression vector containing the E1 glycoprotein gene of rubella virus for the study on the effect of mutation of the E1 gene glycoprotein and the analysis of phylogenetic differences of sequences, the...To construct an expression vector containing the E1 glycoprotein gene of rubella virus for the study on the effect of mutation of the E1 gene glycoprotein and the analysis of phylogenetic differences of sequences, the gene encoding the E1 envelope glycoprotein was amplified from rubella virus, Jinan strain JR23, by RT-PCR and ligated into PMD-18T vector. The clones that carried the E1 gene were identified after amp r selection and analysis of restriction enzyme digestion. After sequencing this gene was analyzed by Danstar and Winstar programs, and the map of phylogenetic tree was drawn. The clone of E1 glycoprotein was thus constructed. It was found that the sequence differences between JR23 strain and the TCRB strain from Japan and those between JR23 strain and Thomas strain of England were rather small with difference values of 0.9% and 1.2% respectively. Yet those between JR23 strain and BRD2 strain from Beijing and those between JR23 strain and XG379 strain from Hong Kong were comparatively larger with difference values of 7.6% and 7.3% respectively. The sequence of JR23 strain with other strains was less than 3% except the NC strain (3.7%). It concludes that the construction of E1 glycoprotein gene offers an approach to study the relationship between structures and functions of E1 gene and its gene products. In the phylogenetic tree, it shows that there are significant differences in the sequences of rubella virus isolated in China, and this might be helpful to develop an effective subunit vaccine.展开更多
基金grants from Deutsche Forschungsgemeinschaft, Wilhelm Sander-Stiftung, and Forschungsfrderung Ruhr-Universitt Bochum Medizinische Fakultt to OW
文摘AIM: To evaluate whether intratumoral expression of measles virus fusogenic membrane glycoproteins H and F (MV-FMG), encoded by an adenovirus vector Ad.MV-HI F, alone or in combination with local coexpression of cytokines (IL-2, IL-12, IL-18, IL-21 or GM-CSF), can serve as a platform for inducing tumor-specific immune responses in colon cancer.METHODS: We used confocal laser scanning microscopy and flow cytometry to analyze cell-cell fusion after expression of MV-FMG by dye colocalization. In a syngeneic bilateral subcutaneous MC38 and Colon26 colon cancer model in C57BL/6 and BALB/c mice, we assessed the effect on both the directly vector-treated tumor as well as the contralateral, not directly vector- treated tumor. We assessed the induction of a tumorspecific cytotoxic T lymphocyte (CTL) response with a lactate dehydrogenase (LDH) release assay.RESULTS: We demonstrated in vitro that transduction of MC38 and Colon26 cells with Ad.MV-H/F resulted in dye colocalization, indicative of cell-cell fusion, in addition, in the syngeneic bilateral tumor model we demonstrated a significant regression of the directly vector-inoculated tumor upon intratumoral expression of MV-FMG alone or in combination with the tested cytokines. We observed the highest anti-neoplastic efficacy with MV-FMG and lL-21 coexpression. The degree of tumor regression of the not directly vector-treated tumor correlated with the anti-neoplastic response of the directly vector-treated tumor. This regression was mediated by a tumor-specific CTL response.CONCLUSION: Our data indicate that intratumoral expression of measles virus fusogenic membrane glycoproteins is a promising tool both for direct tumor treatment as well as for tumor vaccination approaches that can be further enhanced by cytokine coexpression.
基金This study was supported by grants from the Natural Science Foundationof Shandong Province (No.Q99C10) and Key University Teachers of Educa tion Ministry, China
文摘To construct an expression vector containing the E1 glycoprotein gene of rubella virus for the study on the effect of mutation of the E1 gene glycoprotein and the analysis of phylogenetic differences of sequences, the gene encoding the E1 envelope glycoprotein was amplified from rubella virus, Jinan strain JR23, by RT-PCR and ligated into PMD-18T vector. The clones that carried the E1 gene were identified after amp r selection and analysis of restriction enzyme digestion. After sequencing this gene was analyzed by Danstar and Winstar programs, and the map of phylogenetic tree was drawn. The clone of E1 glycoprotein was thus constructed. It was found that the sequence differences between JR23 strain and the TCRB strain from Japan and those between JR23 strain and Thomas strain of England were rather small with difference values of 0.9% and 1.2% respectively. Yet those between JR23 strain and BRD2 strain from Beijing and those between JR23 strain and XG379 strain from Hong Kong were comparatively larger with difference values of 7.6% and 7.3% respectively. The sequence of JR23 strain with other strains was less than 3% except the NC strain (3.7%). It concludes that the construction of E1 glycoprotein gene offers an approach to study the relationship between structures and functions of E1 gene and its gene products. In the phylogenetic tree, it shows that there are significant differences in the sequences of rubella virus isolated in China, and this might be helpful to develop an effective subunit vaccine.
