中文
Earlier issues
Announcement
More
Progress in Chemistry 2008, Vol. 20 Issue (09): 1324-1334 Previous Articles   Next Articles

• Review •

Antitumor Platinum(Ⅱ) Drugs

Zhu Xingyong1 Zhang Wenping2 You Qidong1* Zhang Cang2 Zuo Lijuan2   

  1. (1. China Pharmaceutical University, Nanjing 210009, China ; 2. Sanhome Pharmaceutical CO., L.T.D Nanjing 210038, China )
  • Received: Revised: Online: Published:
  • Contact: You Qidong
PDF ( 2586 ) Cited
Export

EndNote

Ris

BibTeX

Since cis-[PtⅡCl2(NH3)2] was used as an antitumor drug, the work to find novel antitumor agents among the platinum(Ⅱ) complexes has been developed extensively in the last decades. Cisplatin , carboplatin and oxaliplatin are so effective that they are widely used in clinical therapies. Nowadays, thousands of platinum complexes are designed and synthesized according to classical quantitative structure-activity relationship. In our paper, we reviewed the progress of antitumor platinum(Ⅱ) drug studies in recent five years. The antitumor mechanisms and activities of platinum(Ⅱ) complexes containing bioactive groups, sterically hindered platinum(Ⅱ) complexes, trans-platinum(Ⅱ) complexes, platinum(Ⅱ) complexes containing S or P atom and multiplatinum(Ⅱ) complexes are introduced and summaried.
Key words: platinum(Ⅱ) complexes, antitumor, structure-activity relationship, cytotoxic activity

CLC Number: 

[ 1 ] Cleare M J , Hoeschele J D. Bioinorg. Chem. , 1973 , 2 : 187 —210
[ 2 ] 尤启冬( You Q D) . 药物化学(Medicinal Chemistry) . 北京:化学工业出版社(Beijing : Chemical Industry Press) , 2004. 523
[ 3 ] Yang M, Pang R F , Jia X, et al . J . Inorg. Biochem. , 2005 ,99 : 376 —382
[ 4 ] Garnuszek P , Licin’ ska I , Skierski J S , et al . Nuclear Medicineand Biology , 2002 , 29 : 169 —175
[ 5 ] Garnuszek P , Maurin J K, Witowska-Jarosz J , et al . Inorganica Chimica Acta , 2002 , 338 : 119 —126
[ 6 ] Romaniewska A , Jasztold-Howorko R , Kuduk-Jaworska J , et al .Eur. J . Inorg. Chem. , 2003 , 4043 —4054
[ 7 ] Hasinoff B B , Wu X, Yang Y W. J . Inorg. Biochem. , 2004 ,98 : 616 —624
[ 8 ] Lottner C , Bart K C , Brunner H , et al . J . Med. Chem. , 2002 ,45 : 2064 —2078
[ 9 ] Kushev D , Gorneva G, Grancharov K, et al . J . Inorg.Biochem. , 2002 , 89(3P4) : 203 —211
[10] Bakalova A , Buyukliev R , Tcholakova I , et al . Eur. J . Med.Chem. , 2003 , 38(6) : 627 —632
[11] 裴文( Pei W) , 孙莉( Sun L) . 化学学报(Acta Chimica Sinica) , 2002 , 60(11) : 2074 —2077
[12] 孙莉(Sun L) , 裴文(Pei W) . 有机化学(Chinese Journal of Organic Chemistry) , 2005 , 25(11) : 1462 —1464
[13] Alderden R A , Mellor H R , Callaghan R , et al . Biochemical Pharmacology , 2006 , 71 : 1136 —1145
[14] Kaluderovic’ G N , Schmidt H , Paschke R , et al . J . Inorg.Biochem. , 2007 , 101 (3) : 543 —549
[15] Robillard M S , Bacac M, Reedijk J , et al . J . Comb. Chem. ,2003 , 5 : 821 —825
[16] Iakovidis A , Hadjiliadis N , Lippert E , et al . Inorg. Chim. Acta ,1990 , 175 : 57 —63
[17] Kim Y, Song R , Sohn Y, et al . J . Inorg. Biochem. , 2004 , 98(1) : 98 —104
[18] Galanski M, Slaby S , Jakupec M, et al . J . Med. Chem. , 2003 ,46(23) : 4946 —4951
[19] Margiotta N , Papadia P , Natile G, et al . J . Med. Chem. , 2005 ,48 : 7821 —7828
[20] Furin A , Guiotto A , Veronese F M, et al . Eur. J . Med. Chem. ,2003 , 38 : 739 —749
[21] Song R , Jun YJ , Sohn YS , et al . Journal of Controlled Release ,2005 , 105 : 142 —150
[22] Criado J , Dominguez F , Sinn E , et al . Bioconjugate Chem. ,2000 , 11(2) : 167 —174
[23] Paschke R , Kalbitz J , Sinn E , et al . J . Inorg. Biochem. , 2003 ,94(4) : 335 —342
[24] Bartoli E , Palmieri B , Medici A. WO 2 003 095 462 , 2003
[25] Tromp R A , van Boom S S G E , Reedijk J , et al . Bioorganic &Medicinal Chemistry Letters , 2004 , 14 : 4273 —4276
[26] 余尧(Yu Y) , 刘伟平(Liu W P) , 崔宁(Cui N) 等. 药学学报(Acta Pharmaceutica Sinca) , 2006 , 41(12) : 1201 —1203
[27] Yu C W, Pang S K, Ho Y P , et al . Bioorganic & Medicinal Chemistry Letters , 2006 , 16 : 1686 —1691
[28] 苟少华(Gou S H) , 王联红(Wang L H) . CN 1 478 785 , 2003
[29] Gavrielatos E , Athanasellis G, Igglessi2Markopoulou O , et al .Inorganica Chimica Acta , 2003 , 344 : 128 —132
[30] Yokoyama T , Kishimoto H. JP 2 004 083 508 , 2004
[31] Inagaki K, Kidani Y, Suzuki K, et al . Chem. Pharm. Bull . ,1980 , 28 : 2286 —2291
[32] Brunner H , Hankofer P , Holzinger U , et al . Eur. J . Med.Chem. , 1990 , 25 : 35 —44
[33] Kageyama Y, Yamazaki Y, Okuno H. J . Inorg. Biochem. ,1998 , 70 : 25 —32
[34] Moradell S , Lorenzo J , Martinez M A , et al . J . Inorg.Biochem. , 2003 , 96 : 493 —502
[35] Couri M R C , de Almeida M V , Fontes A P S. Eur. J . Inorg.Chem. , 2006 , 1868 —1874
[36] Seo M S , Sohn Y S , Nam W, et al . Inorganic Chemistry Communications , 2004 , 7 : 1178 —1180
[37] Williams K M, Chapman D J , Massey S R , et al . J . Inorg.Biochem. , 2005 , 99 : 2119 —2126
[38] Dullin A , Dufrasne F , Gust R , et al . ChemMedChem, 2006 , 1 :644 —653
[39] Pelley R J . Curr. Onco. Rep. , 2001 , 3 : 147 —155
[40] Mani S , GrahamMA , Bregman D B. Cancer Invest . , 2002 , 20 :246 —263
[41] Misset J L , Bleiberg H , Sutherland W. Crit . Rev. Oncol .Hematol . , 2000 , 35 : 75 —93
[42] Habala L , Galanski M, Yasemi A , et al . Eur. J . Med. Chem. ,2005 , 40 : 1149 —1155
[43] Galanski M, Yasemi A , Slaby S , et al . Eur. J . Med. Chem. ,2004 , 39 : 707 —714
[44] Galanski M, Yasemi A , Jakupec M A , et al . Monatsh. Chem. ,2005 , 136 : 693 —700
[45] Galanski M, Baumgartner C , Arion V , et al . Eur. J . Inorg.Chem. , 2003 , (14) : 2619 —1625
[46] Bernhand K. WO 2 003 018 593 , 2003
[47] 王联红(Wang L H) , 刘芸(Liu Y) , 苟少华(Gou S H) 等. 中国药科大学学报(Journal of China Pharmaceutical University) ,2005 , 36(2) : 106 —110
[48] 崔凯(Cui K) , 徐刚(Xu G) , 苟少华(Gou S H) 等. 中国药科大学学报(Journal of China Pharmaceutical University) , 2005 ,36(6) : 500 —503
[49] Inoue K, Suzaki H. JP 2 002 030 002 , 2002
[50] 苟少华(Gou S H) , 崔凯(Cui K) , 诸海滨(Zhu H B) 等. CN200 410 041 749 , 2004
[51] 苟少华(Gou S H) , 刘芸(Liu Y) . CN 1 456 566 , 2003
[52] 苟少华(Gou S H) , 刘芸(Liu Y) . CN 1 569 862 , 2003
[53] 苟少华(Gou S H) , 刘芸(Liu Y) , 王联红(Wang L H) 等. CN1 680 410 , 2004
[54] Galanski M, Baumgartner C , Meelich K, et al . Inorganica Chimica Acta , 2004 , 357 : 3237 —3244
[55] Aitken D J , Albinati A , Gautier A , et al . Eur. J . Inorg.Chem. , 2007 , (21) : 3327 —3334
[56] Van Zutphen S , Stone E A , Reedijk J , et al . J . Inorg.Biochem. , 2005 , 99 : 2032 —2038
[57] 张金超(Zhang J C) , 龚钰秋( Gong Y Q) , 郑小明( Zheng X M) 等. 无机化学学报(Chinese Journal of Inorganic Chemistry) ,2005 , 21(11) : 1752 —1758
[58] Conrad M L , Enman J E , Westcott S A , et al . Inorganica Chimica Acta , 2005 , 358 : 63 —69
[59] Gumus F. Algul O , Eren G, et al . Eur. J . Med. Chem. , 2003 ,38(5) : 473 —480
[60] Gumus F , Pamuk I , Ozden T , et al . J . Inorg. Biochem. , 2003 ,94(3) : 255 —262
[61] Lottner C , Bart K C , Brunner H , et al . J . Med. Chem. , 2002 ,45 : 2079 —2089
[62] Song R , Kim Y, Sohn Y. Tetrahedron Lett . , 2002 , 45 (10) :1537 —1540
[63] Song R , Kim Y, Sohn Y. J . Inorg. Biochem. , 2002 , 89(1/2) :83 —88
[64] Bekhit A A , El-Sayed O A , Aboul-Enein H Y, et al . Eur. J .Med. Chem. , 2004 , 39 : 499 —505
[65] Margiotta N , Ostuni R , Natile G, et al . J . Med. Chem. , 2007 ,50 : 1019 —1027
[66] Budzisz E , Malecka M, Keppler B K, et al . Eur. J . Inorg.Chem. , 2007 , (23) : 3728 —3735
[67] Ruiz J , Cutillas N , Vicente C , et al . Inorg. Chem. , 2005 , 44(21) : 7365 —7376
[68] Ruiz J , Lorenzo J , Sanglas L , et al . Inorg. Chem. , 2006 , 45(16) : 6347 —6360
[69] Cerasino L , Intini F P , Natile G, et al . Inorg. Chim. Acta ,2003 , 344 (2) : 174 —182
[70] Lakomska I , Szlyk E , Sitkoski J , et al . J . Inorg. Biochem. ,2004 , 98(1) : 167 —172
[71] Grabner S , Kosmrlj J , Bukovec N , et al . J . Inorg. Biochem. ,2003 , 95(2P3) : 105 —112
[72] Fenton R , Aldrich-Weight J . WO 2 002 066 435 , 2002
[73] Wuestefeld H , Kaska C , Stucky D , et al . WO 2 002 059 134 ,2002
[74] Zhang J Y, Liu Q , Guo Z J , et al . J . Chem. Soc. Dalton Trans. , 2002 , 591 —597
[75] Tu C , Wang X F , Guo ZJ , et al . Inorg. Chim. Acta , 2004 , 357(1) : 95 —102
[76] Tu C , Ling J , Guo Z J , et al . Inorg. Chem. , 2003 , 42 (19) :5795 —5797
[77] Romaniewska A , Jasztold-Howorko R , Kuduk-Jaworska J , et al .Eur. J . Inorg. Chem. , 2003 , (22) : 4043 —4054
[78] 潘勇军(Pan Y J ) , 夏军(Xia J) , 杜勇(Du Y) 等. 武汉科技学院学报( Journal of Wuhan University of Science And Engineering) , 2003 , 16(2) : 9 —13
[79] Bierbach U , Qu Y, Farrell N , et al . Inorg. Chem. , 1999 , 38(15) : 3535 —3542
[80] Farrell N. US 635 074 0B1 , 2002
[81] Khazanov E , Barenholz Y, Gibson D , et al . J . Med. Chem. ,2002 , 45 : 5196 —5204
[82] Kasparkova J , Marini V , Gibson D , et al . Biochemistry , 2003 ,42 : 6321 —6332
[83] Martnez A , Lorenzo J , Moreno V , et al . ChemBioChem, 2005 ,6 : 2068 —2077
[84] Van Zutphen S , Pantoja E , Reedijk J , et al . Dalton Trans. ,2006 , 1020 —1023
[85] Tuesk-Bozic L , Frausin F , Sarcia V , et al . J . Inorg. Biochem. ,2003 , 95(4) : 259 —269
[86] Coluccia M, Nassi A , Loseto F , et al . J . Med. Chem. , 1993 ,36 : 510 —512
[87] Boccarelli A , Intini F P , Natile G, et al . J . Med. Chem. ,2006 , 49 : 829 —837
[88] Jaramillo D , Wheate N J , Aldrich-Wright J R , et al . Inorg.Chem. , 2006 , 45(15) : 6004 —6013
[89] Amtmann E , Zoller M, Wesch H , et al . Cancer Chemother.Pharmacol . , 2001 , 47(6) : 461 —466
[90] Marzano C , Trevisan A , Fregona D , et al . Toxicology in Vitro ,2002 , 16 : 413 —419
[91] Giovagnini L , Ronconi L , Fregona D , et al . J . Med. Chem. ,2005 , 48 : 1588 —1595
[92] Afrasiabi Z , Sinn E , Chen J N , et al . Inorganica Chimica Acta ,2004 , 357 : 271 —278
[93] Mohammad A A , Aminul H M, Raymond J B , et al . J . Inorg.Biochem. , 2002 , 92 : 141 —148
[94] Sleijfer D T , Offerman J J G, Mulder N H , et al . Cancer , 1987 ,60 : 2823
[95] Onoa GB , Moreno V , Freisinger E , et al . J . Inorg. Biochem. ,2002 , 89(3P4) : 237 —247
[96] Friebolin W, Schilling G, Amtmann E , et al . J . Med. Chem. ,2004 , 47 : 2256 —2263
[97] Augustus T , Anderson J , Bierbach U , et al . Bioorg. Med.Chem. Lett . , 2003 , 13(5) : 855 —858
[98] Zhang J Y, Wang X Y, Guo Z J , et al . J . Med. Chem. , 2003 ,46(16) : 3502 —3507
[99] Ramos-Lima F , Quiroga A , Navarro-Ranninger C , et al . Eur. J .Inorg. Chem. , 2003 , 8 : 1591 —1598
[100] Henderson W, Nicholson B K, Dinger M B. Inorganica Chimica Acta , 2003 , 355 : 428 —431
[101] Bergamini P , Bertolasi V , Marvelli L , et al . Inorg. Chem. ,2007 , 46(10) : 4267 —4276
[102] Farrell N P , Menta E , Di D , et al . US 6 060 616 , 2000
[103] Davies M S , Tomas D S , Hegmans A , et al . Inorg. Chem. ,2002 , 41(5) : 1101 —1109
[104] Komeda S , Lutz M, Reedijk J , et al . J . Am. Chem. Soc. ,2002 , 124 : 4738 —4746
[105] Komeda S , Kalayda G V , Reedijk J , et al . J . Med. Chem. ,2003 , 46 : 1210 —1219
[106] Messori L , Shaw J , Camalli M, et al . Inorg. Chem. , 2003 , 42(20) : 6166 —6168
[107] Bennett J , Rae A , Salem G, et al . J . Chem. Soc. Dalton Trans. , 2002 , 234 —243
[108] Kim Y S , Song R , Lee C O , et al . Bioorganic & Medicinal Chemistry Letters , 2004 , 14 : 2889 —2892
[109] Cheng H , Huq F , Beale B , et al . Eur. J . Med. Chem. , 2005 ,40 : 772 —781
[1] Shunxin Gu, Qin Jiang, Pengfei Shi. Antitumor Activity and Application of Luminescent Iridium(Ⅲ) Complexes [J]. Progress in Chemistry, 2022, 34(9): 1957-1971.
[2] Jiangjiexing Wu, Hui Wei. Efficient Design Strategies for Nanozymes [J]. Progress in Chemistry, 2021, 33(1): 42-51.
[3] Xin Yan, Yi-Xian Li, Yue-Mei Jia, Chu-Yi Yu. Glycosylated Iminosugars: Isolation, Synthesis and Biological Activities [J]. Progress in Chemistry, 2019, 31(11): 1472-1508.
[4] Zi-Yue Xu, Yun-Chang Zhang, Jia-Le Lin, Hui Wang, Dan-Wei Zhang, Zhan-Ting Li. Supramolecular Self-Assembly Applied for the Design of Drug Delivery Systems [J]. Progress in Chemistry, 2019, 31(11): 1540-1549.
[5] Xiaoxiao Tan, Guoshuai Li, Qingpeng Wang, Bingquan Wang, Dacheng Li, Peng George Wang. Small Molecular Platinum(Ⅳ) Compounds as Antitumor Agents [J]. Progress in Chemistry, 2018, 30(6): 831-846.
[6] Yixian Li, Yuemei Jia, Chuyi Yu. Synthesis and Glycosidase Inhibitory Activities of Fluorinated Iminosugars [J]. Progress in Chemistry, 2018, 30(5): 586-600.
[7] Tianzhi Dai, Dequn Sun. Research of Anti-TB Active Compounds [J]. Progress in Chemistry, 2018, 30(11): 1784-1802.
[8] Yuewen Sun, Suxing Jin, Xiaoyong Wang, Zijian Guo. Application Prospect of Metal Complexes in Chemoimmunotherapy of Tumors [J]. Progress in Chemistry, 2018, 30(10): 1573-1583.
[9] Benzhan Zhu, Linna Xie, Chen Shen, Huiying Gao, Liya Zhu, Li Mao. Chemiluminescence Generation from Haloaromatic Pollutants:Structure-Activity Relationship, Molecular Mechanism and Potential Applications [J]. Progress in Chemistry, 2017, 29(9): 930-942.
[10] Hu Daihua, Chen Wang, Wang Yongji. Synthesis and Structure-Activity Relationship of Active Vitamin D3 Analogues [J]. Progress in Chemistry, 2016, 28(6): 839-859.
[11] Guo Jian, He Yun, Ye Xin-Shan. Design and Discovery of Sialyltransferase Inhibitors [J]. Progress in Chemistry, 2016, 28(11): 1712-1720.
[12] Zhao Lijun, Lei Ming. Computational Chemical Studies on Transthyretin [J]. Progress in Chemistry, 2014, 26(01): 193-202.
[13] Wang Yian, You Ming. Chemoprevention of Oral Cancer by a Mixture of Chinese Herbs (Anti-Tumor Mixture B) [J]. Progress in Chemistry, 2013, 25(09): 1594-1600.
[14] Lang Xuliang, Luan Xudong, Gao Chunmei, Jiang Yuyang. Recent Progress of Acridine Derivatives with Antitumor Activity [J]. Progress in Chemistry, 2012, 24(08): 1497-1505.
[15] Zhao Yongsheng, Zhang Xiangping, Zhao Jihong, Zhang Hongzhong, Kang Xuejing, Dong Feng. Research of QSPR/QSAR for Ionic Liquids [J]. Progress in Chemistry, 2012, 24(07): 1236-1244.
Viewed
Full text


Abstract

Antitumor Platinum(Ⅱ) Drugs