The potential efficacy and clinical feasibility of gene therapy for liver cancer were tested through therecombinant adenovirus-mediated (Ad-multigenes ) co-transfer of human wild-type p53, B7-l co-stimulation(CD8o) an...The potential efficacy and clinical feasibility of gene therapy for liver cancer were tested through therecombinant adenovirus-mediated (Ad-multigenes ) co-transfer of human wild-type p53, B7-l co-stimulation(CD8o) and granulocyte-macrophage colony-stimulating factor (GM-CSF) genes into human hepatocellular carcinoma cell lines. The treated cells underwent apoptosis with specific DNA fragmentation and became more sensitiveto cisplatin, a chemotherapeutic drug. Their growth was partly inhibited. Efficient proliferation and generation ofCTLs and cytokine production were induced in mixed lymphocytes through tumor cell reaction (MLTR) using peripheral blood T lymphocytes from donors as effector cells and Ad-multigenes or Ad-p53-transfected human hepatocellular carcinoma cells (HepG2 or BEL7402) as stimulator cells. Ad-multigenes-transfected rat carcinosarcomaWalker 256 cells were inoculated subcutaneously into normal rats. Fourteen days later, the activity of spleen cellsin rats inoculated with Ad-multigenes-transduced Walker 256 cells was higher than that in Ad-p53-transducedones. These findings suggest that adenovirus-mediated multigenes p53, B7-1 and GM-CSF can induce apoptosis ofliver cancer cells and initiate a potent antitumor immune response against them.展开更多
OBJECTIVE: To develop a new kind of vector system called gene-viral vector, which combines the advantages of gene and virus therapies. METHODS: Using recombinant technology, an anti-tumor gene was inserted into the ge...OBJECTIVE: To develop a new kind of vector system called gene-viral vector, which combines the advantages of gene and virus therapies. METHODS: Using recombinant technology, an anti-tumor gene was inserted into the genome of replicative virus specific for tumor cells. The cell killing effect, reporter gene expression of the green fluorescence protein, anti-tumor gene expression of mouse interleukin-12 (mIL-12) and replication of virus were observed by the methods of cell pathology, fluorescence microscopy, ELISA and electron microscopy, respectively. RESULTS: A new kind of gene-viral vector system of adenovirus, in which the E1b-55 kD gene was deleted but the E1a gene was preserved, was constructed. The vector system, like the replicative virus ONYX-015, replicated and proliferated in tumor cells but not in normal ones. Our vector had an advantage over ONYX-015 in that it carried different kinds of anti-tumor genes to enhance its therapeutic effect. The reporter gene expression of the green fluorescence protein in tumor cells was much better than the adenovirus vector employed in conventional gene the rapy, and the expression in our vector system was as low as or even less than that in the conventional adenovirus gene therapy system. Similar results were observed in experiments with this vector system carrying the anti-tumor gene mIL-12. Replication and proliferation of the virus carrying the mIL-12 gene in tumor cells were confirmed by electron microscopy. CONCLUSIONS: Gene-viral vectors are new vectors with an anti-tumor gene inserted into the genome of replicative virus specific for tumor cells. Because of the specific replication and proliferation of the virus in tumor cells, expression of the anti-tumor gene is increased hundreds to thousands of times. This approach takes full advantages of gene therapy and virus therapy to enhance the effect on the tumor. It overcomes the disadvantages of conventional gene therapy, such as low transfer rate, low gene expression, lack of target tropism, and low anti-tumor activity. We believe that this is a promising means for future tumor treatment.展开更多
文摘The potential efficacy and clinical feasibility of gene therapy for liver cancer were tested through therecombinant adenovirus-mediated (Ad-multigenes ) co-transfer of human wild-type p53, B7-l co-stimulation(CD8o) and granulocyte-macrophage colony-stimulating factor (GM-CSF) genes into human hepatocellular carcinoma cell lines. The treated cells underwent apoptosis with specific DNA fragmentation and became more sensitiveto cisplatin, a chemotherapeutic drug. Their growth was partly inhibited. Efficient proliferation and generation ofCTLs and cytokine production were induced in mixed lymphocytes through tumor cell reaction (MLTR) using peripheral blood T lymphocytes from donors as effector cells and Ad-multigenes or Ad-p53-transfected human hepatocellular carcinoma cells (HepG2 or BEL7402) as stimulator cells. Ad-multigenes-transfected rat carcinosarcomaWalker 256 cells were inoculated subcutaneously into normal rats. Fourteen days later, the activity of spleen cellsin rats inoculated with Ad-multigenes-transduced Walker 256 cells was higher than that in Ad-p53-transducedones. These findings suggest that adenovirus-mediated multigenes p53, B7-1 and GM-CSF can induce apoptosis ofliver cancer cells and initiate a potent antitumor immune response against them.
文摘OBJECTIVE: To develop a new kind of vector system called gene-viral vector, which combines the advantages of gene and virus therapies. METHODS: Using recombinant technology, an anti-tumor gene was inserted into the genome of replicative virus specific for tumor cells. The cell killing effect, reporter gene expression of the green fluorescence protein, anti-tumor gene expression of mouse interleukin-12 (mIL-12) and replication of virus were observed by the methods of cell pathology, fluorescence microscopy, ELISA and electron microscopy, respectively. RESULTS: A new kind of gene-viral vector system of adenovirus, in which the E1b-55 kD gene was deleted but the E1a gene was preserved, was constructed. The vector system, like the replicative virus ONYX-015, replicated and proliferated in tumor cells but not in normal ones. Our vector had an advantage over ONYX-015 in that it carried different kinds of anti-tumor genes to enhance its therapeutic effect. The reporter gene expression of the green fluorescence protein in tumor cells was much better than the adenovirus vector employed in conventional gene the rapy, and the expression in our vector system was as low as or even less than that in the conventional adenovirus gene therapy system. Similar results were observed in experiments with this vector system carrying the anti-tumor gene mIL-12. Replication and proliferation of the virus carrying the mIL-12 gene in tumor cells were confirmed by electron microscopy. CONCLUSIONS: Gene-viral vectors are new vectors with an anti-tumor gene inserted into the genome of replicative virus specific for tumor cells. Because of the specific replication and proliferation of the virus in tumor cells, expression of the anti-tumor gene is increased hundreds to thousands of times. This approach takes full advantages of gene therapy and virus therapy to enhance the effect on the tumor. It overcomes the disadvantages of conventional gene therapy, such as low transfer rate, low gene expression, lack of target tropism, and low anti-tumor activity. We believe that this is a promising means for future tumor treatment.
