从boanmycin产生菌轮枝链霉菌平阳变种(Streptomyces verticillus var. pingyangensis n. sp.)发酵产物中分离、纯化boanmycin相关物质A601。对A601进行光谱分析鉴定其化学结构,结果证实A601的化学结构为博来霉素B6,并对其碳谱进行了归属。
Objective: Chemotactic peptide may interfere with the process of tumor growth, invasion and metastasis by activating and attracting leukocytes containing macrophages. fMLP (CHO-Met-II e-Phe) is one of the chemotactic ...Objective: Chemotactic peptide may interfere with the process of tumor growth, invasion and metastasis by activating and attracting leukocytes containing macrophages. fMLP (CHO-Met-II e-Phe) is one of the chemotactic peptides. Boanmycin (BAM), a single A6 component from the bleomycin complex, is effective against a panel of cancers in clinical trials. This study was set to investigate the antitumor activity of BAM in combination with chemotactic peptide fMLP. Methods: Cytotoxicity of BAM and fMLP to cancer cells was determined by MTT assay. Therapeutic effect was evaluated by using the model of subcutaneously transplanted hepatoma 22 in mice. Results were judged as that a CDI less than 0.85 was considered as synergism and one less than 0.75 as significant synergism. Results: BAM and fMLP showed no synergism in cytotoxicity to cancer cells. In all in vivo experiments, fMLP was administered peritumorally at the dose of 1 mg/mouse; no significant inhibition by fMLP alone on the growth of hepatoma 22 was found. Different settings of BAM and fMLP combination included: (1) BAM, administered peritumorally×3, was started 24 h after tumor inoculation. BAM (0.5 mg/kg) alone and BAM-fMLP combination inhibited the growth of hepatoma 22 by 26.6% and 64.7%, respectively (P<0.05, CDI=0.36) on day 13. (2) BAM, administered ip×3, was started 24 h after tumor inoculation. The growth of tumor in BAM (1 mg/kg) group was faster than that in BAM-fMLP combination group. On day 14, BAM (1 mg/kg) alone and BAM-fMLP combination suppressed the growth of tumor by 11% and 70.6%, respectively (P<0.05), CDI=0.42). (3) BAM, administered ip×3, was started 96 h after tumor inoculation. The growth of tumor in BAM (1 mg/kg) group was faster than that in BAM-fMLP combination group. On day 13, BAM (1 mg/kg) alone and BAM-fMLP combination suppressed tumor growth by 38.2% and 77.1%, respectively (P<0.05, CDI=0.51). As shown in all in vivo experimental settings, antitumor effect of BAM in combination with fMLP was much more potent than that of BAM alone. Conclusion: This experiment shows that chemotactic peptide fMLP may enhance the antitumor effect of BAM, which indicates that chemotactic modulation may play a positive role in cancer chemotherapy.展开更多
Objective: The inhibitory action of fMLP-boanmycin (BAM) combination on the growth of mouse colon carcinoma and its action mechanisms were observed in order to provide experimental proof for probing novel regimen o...Objective: The inhibitory action of fMLP-boanmycin (BAM) combination on the growth of mouse colon carcinoma and its action mechanisms were observed in order to provide experimental proof for probing novel regimen of chemotactic modulation in combination with chemotherapy in the treatment of cancer. Methods: Cytotoxicity of BAM-fMLP combination to tumor cells was determined by MTT assay in vitro. Antitumor activity of BAM-fMLP combination was assessed in mice subcutaneously transplanted colon carcinoma 26. The amount of superoxide anion (O2 ·^-)released from fMLP stimulated macrophages was determined by NBT assay. The amount of nitric oxide (NO) was indirectly determined by Griess method. Results: BAM-fMLP combination had no synergistic effect on tumor cells(CDI〉0.85), but BAM at the doses of 10μg/ml, 30μg/ml and 100μg/ml in combination with fMLP at the concentration 20μg / ml exhibited synergistic effect on tumor cells in the presence of macrophages(CDI〈0.75), fMLP inhibited the growth of colon carcinoma 26 by 50.0% when it at dose of 1 mg/mouse was administered peritumorally. BAM (1 mg/kg, intraperitoneally, three times) alone and BAM - fMLP combination inhibited the growth of colon carcinoma 26 by 38.6% and 78.4%, respectively (CDI=0.71) on day 12. The amount of O2 ·^- released from fMLP 4.6×10^-7 mol/L (0.2μg/ml) stimulated macrophages which were treated by BAM in vitro increased significantly(P〈0.01), fMLP 2.3×10^-6 mol/L (1μg/ml) could not stimulate macrophages to release NO, but may stimulate macrophages treated with BAM 10μg/ml and 100μg/ml to release NO significantly(P〈0.01). Conclusion: The inhibitory action of fMLP-boanmycin combination on the growth of mouse colon carcinoma have synergism, which may associate with the increase of O2 ·^- and NO released by macrophages. Chemotactic modulation in combination with chemotherapy may be a novel regimen in the treatment of cancer.展开更多
INTRODUCTIONBoanmycin (Bleomycin A6, BAM ), a newantitumor antibiotic, was isolated from manycomponents of bleomycin (BLM) produced bystreptomyces pingyangensis which were obtainedfrom a soil sample collected in Pingy...INTRODUCTIONBoanmycin (Bleomycin A6, BAM ), a newantitumor antibiotic, was isolated from manycomponents of bleomycin (BLM) produced bystreptomyces pingyangensis which were obtainedfrom a soil sample collected in Pingyang County,Zhejiang Province, China. Boanmycin has a similarchemical structure to that of BLM, but the terminalamine moiety is different[ 1].展开更多
Background Boanmycin hydrochloride, a new antitumor agent, has a short half-life and fast clearance speed in vivo. The aim of this research was to investigate the effectiveness of peritumor injection of boanmycin hydr...Background Boanmycin hydrochloride, a new antitumor agent, has a short half-life and fast clearance speed in vivo. The aim of this research was to investigate the effectiveness of peritumor injection of boanmycin hydrochloride within temperature-sensitive gel in situ using Hep-G2 hepatoma nude mice model. Methods Nude mice with human Hep-G2 tumor in right flank were randomly divided into four groups: normal saline group, in situ gel only group, boanmycin hydrochloride in situ saline group, and boanmycin hydrochloride in situ gel group, and were treated with injection of corresponding agents into peripheral tissue of the tumor. The volume of the tumor and the body weight of the mice were regularly measured, and tumor growth curve was generated. The size, internal echo, and blood flow of the tumors were observed by color Doppler ultrasonography. Histopathologic changes of the tumor after treatment were observed under both optical and transmission electron microscopy. Results The tumor growth was significantly inhibited by peritumoral therapy in boanmycin hydrochloride in situ gel group with the tumor inhibitory rate of 86.76%. The blood flow of the tumor was still seen in both normal saline group and in situ gel only group on color Doppler ultrasound. Punctate calcification and dotted blood flow were seen in boanmycin hydrochloride group; however, there was massive calcification and no blood flow in the tumor in the boanmycin hydrochlodde in situ gel group. Large areas of necrosis and apoptotic cells were shown by microscopic observation in boanmycin hydrochloride in situ gel group. Conclusion Temperature-sensitive boanmycin hydrochloride in situ gel can effectively delay the release of boanmycin hydrochloride and increase its anticancer effects for liver cancer in animal model.展开更多
文摘从boanmycin产生菌轮枝链霉菌平阳变种(Streptomyces verticillus var. pingyangensis n. sp.)发酵产物中分离、纯化boanmycin相关物质A601。对A601进行光谱分析鉴定其化学结构,结果证实A601的化学结构为博来霉素B6,并对其碳谱进行了归属。
基金This work was supported by the "973" Major State Basic Research Project of china (No. G1998051104)
文摘Objective: Chemotactic peptide may interfere with the process of tumor growth, invasion and metastasis by activating and attracting leukocytes containing macrophages. fMLP (CHO-Met-II e-Phe) is one of the chemotactic peptides. Boanmycin (BAM), a single A6 component from the bleomycin complex, is effective against a panel of cancers in clinical trials. This study was set to investigate the antitumor activity of BAM in combination with chemotactic peptide fMLP. Methods: Cytotoxicity of BAM and fMLP to cancer cells was determined by MTT assay. Therapeutic effect was evaluated by using the model of subcutaneously transplanted hepatoma 22 in mice. Results were judged as that a CDI less than 0.85 was considered as synergism and one less than 0.75 as significant synergism. Results: BAM and fMLP showed no synergism in cytotoxicity to cancer cells. In all in vivo experiments, fMLP was administered peritumorally at the dose of 1 mg/mouse; no significant inhibition by fMLP alone on the growth of hepatoma 22 was found. Different settings of BAM and fMLP combination included: (1) BAM, administered peritumorally×3, was started 24 h after tumor inoculation. BAM (0.5 mg/kg) alone and BAM-fMLP combination inhibited the growth of hepatoma 22 by 26.6% and 64.7%, respectively (P<0.05, CDI=0.36) on day 13. (2) BAM, administered ip×3, was started 24 h after tumor inoculation. The growth of tumor in BAM (1 mg/kg) group was faster than that in BAM-fMLP combination group. On day 14, BAM (1 mg/kg) alone and BAM-fMLP combination suppressed the growth of tumor by 11% and 70.6%, respectively (P<0.05), CDI=0.42). (3) BAM, administered ip×3, was started 96 h after tumor inoculation. The growth of tumor in BAM (1 mg/kg) group was faster than that in BAM-fMLP combination group. On day 13, BAM (1 mg/kg) alone and BAM-fMLP combination suppressed tumor growth by 38.2% and 77.1%, respectively (P<0.05, CDI=0.51). As shown in all in vivo experimental settings, antitumor effect of BAM in combination with fMLP was much more potent than that of BAM alone. Conclusion: This experiment shows that chemotactic peptide fMLP may enhance the antitumor effect of BAM, which indicates that chemotactic modulation may play a positive role in cancer chemotherapy.
文摘Objective: The inhibitory action of fMLP-boanmycin (BAM) combination on the growth of mouse colon carcinoma and its action mechanisms were observed in order to provide experimental proof for probing novel regimen of chemotactic modulation in combination with chemotherapy in the treatment of cancer. Methods: Cytotoxicity of BAM-fMLP combination to tumor cells was determined by MTT assay in vitro. Antitumor activity of BAM-fMLP combination was assessed in mice subcutaneously transplanted colon carcinoma 26. The amount of superoxide anion (O2 ·^-)released from fMLP stimulated macrophages was determined by NBT assay. The amount of nitric oxide (NO) was indirectly determined by Griess method. Results: BAM-fMLP combination had no synergistic effect on tumor cells(CDI〉0.85), but BAM at the doses of 10μg/ml, 30μg/ml and 100μg/ml in combination with fMLP at the concentration 20μg / ml exhibited synergistic effect on tumor cells in the presence of macrophages(CDI〈0.75), fMLP inhibited the growth of colon carcinoma 26 by 50.0% when it at dose of 1 mg/mouse was administered peritumorally. BAM (1 mg/kg, intraperitoneally, three times) alone and BAM - fMLP combination inhibited the growth of colon carcinoma 26 by 38.6% and 78.4%, respectively (CDI=0.71) on day 12. The amount of O2 ·^- released from fMLP 4.6×10^-7 mol/L (0.2μg/ml) stimulated macrophages which were treated by BAM in vitro increased significantly(P〈0.01), fMLP 2.3×10^-6 mol/L (1μg/ml) could not stimulate macrophages to release NO, but may stimulate macrophages treated with BAM 10μg/ml and 100μg/ml to release NO significantly(P〈0.01). Conclusion: The inhibitory action of fMLP-boanmycin combination on the growth of mouse colon carcinoma have synergism, which may associate with the increase of O2 ·^- and NO released by macrophages. Chemotactic modulation in combination with chemotherapy may be a novel regimen in the treatment of cancer.
基金Supported by the National Natural Science Foundation of China, No. 93090012-03
文摘INTRODUCTIONBoanmycin (Bleomycin A6, BAM ), a newantitumor antibiotic, was isolated from manycomponents of bleomycin (BLM) produced bystreptomyces pingyangensis which were obtainedfrom a soil sample collected in Pingyang County,Zhejiang Province, China. Boanmycin has a similarchemical structure to that of BLM, but the terminalamine moiety is different[ 1].
文摘Background Boanmycin hydrochloride, a new antitumor agent, has a short half-life and fast clearance speed in vivo. The aim of this research was to investigate the effectiveness of peritumor injection of boanmycin hydrochloride within temperature-sensitive gel in situ using Hep-G2 hepatoma nude mice model. Methods Nude mice with human Hep-G2 tumor in right flank were randomly divided into four groups: normal saline group, in situ gel only group, boanmycin hydrochloride in situ saline group, and boanmycin hydrochloride in situ gel group, and were treated with injection of corresponding agents into peripheral tissue of the tumor. The volume of the tumor and the body weight of the mice were regularly measured, and tumor growth curve was generated. The size, internal echo, and blood flow of the tumors were observed by color Doppler ultrasonography. Histopathologic changes of the tumor after treatment were observed under both optical and transmission electron microscopy. Results The tumor growth was significantly inhibited by peritumoral therapy in boanmycin hydrochloride in situ gel group with the tumor inhibitory rate of 86.76%. The blood flow of the tumor was still seen in both normal saline group and in situ gel only group on color Doppler ultrasound. Punctate calcification and dotted blood flow were seen in boanmycin hydrochloride group; however, there was massive calcification and no blood flow in the tumor in the boanmycin hydrochlodde in situ gel group. Large areas of necrosis and apoptotic cells were shown by microscopic observation in boanmycin hydrochloride in situ gel group. Conclusion Temperature-sensitive boanmycin hydrochloride in situ gel can effectively delay the release of boanmycin hydrochloride and increase its anticancer effects for liver cancer in animal model.
