Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines

BACKGROUND: Anticancer bisdioxopiperazines, including ICRF-154, razoxane (Raz, ICRF-159) and ICRF-193, are a family of anticancer agents developed in the UK, especially targeting metastases of neoplasms. Two other bisdioxopiperazine derivatives, probimane (Pro) and MST-16, were synthesized at the Sh...

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Autores principales: Lu, Da Yong, Huang, Min, Xu, Cheng Hui, Yang, Wei Yi, Hu, Chao Xin, Lin, Li Ping, Tong, Lin Jiang, Li, Mei Hong, Lu, Wei, Zhang, Xiong Wen, Ding, Jian
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2005
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1180833/
https://www.ncbi.nlm.nih.gov/pubmed/15963241
http://dx.doi.org/10.1186/1471-2210-5-11
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author Lu, Da Yong
Huang, Min
Xu, Cheng Hui
Yang, Wei Yi
Hu, Chao Xin
Lin, Li Ping
Tong, Lin Jiang
Li, Mei Hong
Lu, Wei
Zhang, Xiong Wen
Ding, Jian
author_facet Lu, Da Yong
Huang, Min
Xu, Cheng Hui
Yang, Wei Yi
Hu, Chao Xin
Lin, Li Ping
Tong, Lin Jiang
Li, Mei Hong
Lu, Wei
Zhang, Xiong Wen
Ding, Jian
author_sort Lu, Da Yong
collection PubMed
description BACKGROUND: Anticancer bisdioxopiperazines, including ICRF-154, razoxane (Raz, ICRF-159) and ICRF-193, are a family of anticancer agents developed in the UK, especially targeting metastases of neoplasms. Two other bisdioxopiperazine derivatives, probimane (Pro) and MST-16, were synthesized at the Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai, China. Cytotoxic activities and mechanisms of Raz (+)-steroisomer (ICRF-187, dexrazoxane), Pro and MST-16 against tumor cells were evaluated by MTT colorimetry, flow cytometry and karyotyping. RESULTS: Pro was cytotoxic to human tumor cell lines in vitro (IC(50)<50 μM for 48 h). Four human tumor cell lines (SCG-7901, K562, A549 and HL60) were susceptible to Pro at low inhibitory concentrations (IC(50 )values < 10 μM for 48 h). Although the IC(50 )against HeLa cell line of vincristine (VCR, 4.56 μM), doxorubicin (Dox, 1.12 μM) and 5-fluoruouracil (5-Fu, 0.232 μM) are lower than Pro (5.12 μM), ICRF-187 (129 μM) and MST-16 (26.4 μM), VCR, Dox and 5-Fu shows a low dose-related – high cytotoxic activity. Time-response studies showed that the cytotoxic effects of Pro are increased for 3 days in human tumor cells, whereas VCR, Dox and 5-Fu showed decreased cytotoxic action after 24 h. Cell cycle G(2)/M phase arrest and chromosome segregation blocking by Pro and MST-16 were noted. Although there was similar effects of Pro and MST-16 on chromosome segregation blocking action and cell cycle G(2)/M phase arrest at 1- 4 μM, cytotoxicity of Pro against tumor cells was higher than that of MST-16 in vitro by a factor of 3- 10 folds. Our data show that Pro may be more effective against lung cancer and leukemia while ICRF-187 and MST-16 shows similar IC(50 )values only against leukemia. CONCLUSION: It suggests that Pro has a wider spectrum of cytotoxic effects against human tumor cells than other bisdioxopiperazines, especially against solid tumors, and with a single cytotoxic pathway of Pro and MST-16 affecting chromosome segregation and leading also to cell G(2)/ M phase arrests, which finally reduces cell division rates. Pro may be more potent than MST-16 in cytotoxicity. High dose- and time- responses of Pro, when compared with VCR, 5-Fu and Dox, were seen that suggest a selectivity of Pro against tumor growth. Compounds of bisdioxopiperazines family may keep up their cytotoxic effects longer than many other anticancer drugs.
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spelling pubmed-11808332005-07-28 Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines Lu, Da Yong Huang, Min Xu, Cheng Hui Yang, Wei Yi Hu, Chao Xin Lin, Li Ping Tong, Lin Jiang Li, Mei Hong Lu, Wei Zhang, Xiong Wen Ding, Jian BMC Pharmacol Research Article BACKGROUND: Anticancer bisdioxopiperazines, including ICRF-154, razoxane (Raz, ICRF-159) and ICRF-193, are a family of anticancer agents developed in the UK, especially targeting metastases of neoplasms. Two other bisdioxopiperazine derivatives, probimane (Pro) and MST-16, were synthesized at the Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai, China. Cytotoxic activities and mechanisms of Raz (+)-steroisomer (ICRF-187, dexrazoxane), Pro and MST-16 against tumor cells were evaluated by MTT colorimetry, flow cytometry and karyotyping. RESULTS: Pro was cytotoxic to human tumor cell lines in vitro (IC(50)<50 μM for 48 h). Four human tumor cell lines (SCG-7901, K562, A549 and HL60) were susceptible to Pro at low inhibitory concentrations (IC(50 )values < 10 μM for 48 h). Although the IC(50 )against HeLa cell line of vincristine (VCR, 4.56 μM), doxorubicin (Dox, 1.12 μM) and 5-fluoruouracil (5-Fu, 0.232 μM) are lower than Pro (5.12 μM), ICRF-187 (129 μM) and MST-16 (26.4 μM), VCR, Dox and 5-Fu shows a low dose-related – high cytotoxic activity. Time-response studies showed that the cytotoxic effects of Pro are increased for 3 days in human tumor cells, whereas VCR, Dox and 5-Fu showed decreased cytotoxic action after 24 h. Cell cycle G(2)/M phase arrest and chromosome segregation blocking by Pro and MST-16 were noted. Although there was similar effects of Pro and MST-16 on chromosome segregation blocking action and cell cycle G(2)/M phase arrest at 1- 4 μM, cytotoxicity of Pro against tumor cells was higher than that of MST-16 in vitro by a factor of 3- 10 folds. Our data show that Pro may be more effective against lung cancer and leukemia while ICRF-187 and MST-16 shows similar IC(50 )values only against leukemia. CONCLUSION: It suggests that Pro has a wider spectrum of cytotoxic effects against human tumor cells than other bisdioxopiperazines, especially against solid tumors, and with a single cytotoxic pathway of Pro and MST-16 affecting chromosome segregation and leading also to cell G(2)/ M phase arrests, which finally reduces cell division rates. Pro may be more potent than MST-16 in cytotoxicity. High dose- and time- responses of Pro, when compared with VCR, 5-Fu and Dox, were seen that suggest a selectivity of Pro against tumor growth. Compounds of bisdioxopiperazines family may keep up their cytotoxic effects longer than many other anticancer drugs. BioMed Central 2005-06-20 /pmc/articles/PMC1180833/ /pubmed/15963241 http://dx.doi.org/10.1186/1471-2210-5-11 Text en Copyright © 2005 Lu et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Lu, Da Yong
Huang, Min
Xu, Cheng Hui
Yang, Wei Yi
Hu, Chao Xin
Lin, Li Ping
Tong, Lin Jiang
Li, Mei Hong
Lu, Wei
Zhang, Xiong Wen
Ding, Jian
Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title_full Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title_fullStr Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title_full_unstemmed Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title_short Anti-proliferative effects, cell cycle G(2)/M phase arrest and blocking of chromosome segregation by probimane and MST-16 in human tumor cell lines
title_sort anti-proliferative effects, cell cycle g(2)/m phase arrest and blocking of chromosome segregation by probimane and mst-16 in human tumor cell lines
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1180833/
https://www.ncbi.nlm.nih.gov/pubmed/15963241
http://dx.doi.org/10.1186/1471-2210-5-11
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