Aim To synthesize protected aminoalkyl sulfinyl dilactones which were useful as the synthetic intermediates or the Cterminal pharmacophores of potential peptidomimetic proteasome inhibitors. Methods Organic reactions ...Aim To synthesize protected aminoalkyl sulfinyl dilactones which were useful as the synthetic intermediates or the Cterminal pharmacophores of potential peptidomimetic proteasome inhibitors. Methods Organic reactions such as reduction, oxidation, olcfmation, and dihydroxylation were used. Results A convenient synthetic procedure to afford a series of aminoalkyl sulfinyl.dilactones was presented, which would be useful in the synthesis of five- or six-member sulfmyl dilactones. Conclusion Four aminoalkyl sulfmyl dilactones connecting different α-amino acids were synthesized.展开更多
Objective: To explore the feasibility of transfecting cytidine deaminase (CD) gene into mouse bone marrow cells in order to observe the drug resistance of high dose Ara-C and improve the tolerance of myelosuppressi...Objective: To explore the feasibility of transfecting cytidine deaminase (CD) gene into mouse bone marrow cells in order to observe the drug resistance of high dose Ara-C and improve the tolerance of myelosuppression following combination chemotherapy. Methods: Human cytidine deaminase gene was transfected into mice bone marrow cells by retroviral vector. Resistant colony-forming unit granulocyte-macrophage (CFU-GM) assay was performed after the transfected mice bone marrow cells treated by the Ara-C. DNA was extracted from mice bone marrow cells. The drug resistant gene in mice bone marrow cells after transfection was detected by PCR. Results: Bone marrow cells of the donor mice cultured with the retroviral producer cells showed the drug resistant colonies and resistance to Ara-C, so did accept mice transplanted with the CD gene (CFU-GM of donor mice was 52%, χ^2 = 124.62, P 〈 0.01; accept mice was 54%, χ^2 = 126.26, P 〈 0.01, both compared with the contrast group). The animal survival rate was significantly higher in gene transfected group than that of the control (χ^2= 7.42, P 〈 0.01). CD gene of transfected bone marrow cells was confirmed by PCR. Conclusion: CD gene can be transfected into bone marrow cells of mice efficiently and increase the drug resistance to Ara-C.展开更多
基金National Natural Science Foundation of China(20572006)985 Program,Ministry of Education of China
文摘Aim To synthesize protected aminoalkyl sulfinyl dilactones which were useful as the synthetic intermediates or the Cterminal pharmacophores of potential peptidomimetic proteasome inhibitors. Methods Organic reactions such as reduction, oxidation, olcfmation, and dihydroxylation were used. Results A convenient synthetic procedure to afford a series of aminoalkyl sulfinyl.dilactones was presented, which would be useful in the synthesis of five- or six-member sulfmyl dilactones. Conclusion Four aminoalkyl sulfmyl dilactones connecting different α-amino acids were synthesized.
基金Supported by a grant from the NationaI-Naturl Science Foundation of China (No. 30471678).
文摘Objective: To explore the feasibility of transfecting cytidine deaminase (CD) gene into mouse bone marrow cells in order to observe the drug resistance of high dose Ara-C and improve the tolerance of myelosuppression following combination chemotherapy. Methods: Human cytidine deaminase gene was transfected into mice bone marrow cells by retroviral vector. Resistant colony-forming unit granulocyte-macrophage (CFU-GM) assay was performed after the transfected mice bone marrow cells treated by the Ara-C. DNA was extracted from mice bone marrow cells. The drug resistant gene in mice bone marrow cells after transfection was detected by PCR. Results: Bone marrow cells of the donor mice cultured with the retroviral producer cells showed the drug resistant colonies and resistance to Ara-C, so did accept mice transplanted with the CD gene (CFU-GM of donor mice was 52%, χ^2 = 124.62, P 〈 0.01; accept mice was 54%, χ^2 = 126.26, P 〈 0.01, both compared with the contrast group). The animal survival rate was significantly higher in gene transfected group than that of the control (χ^2= 7.42, P 〈 0.01). CD gene of transfected bone marrow cells was confirmed by PCR. Conclusion: CD gene can be transfected into bone marrow cells of mice efficiently and increase the drug resistance to Ara-C.
