Rashid Aijaz, Ananthnag Guddekoppa S, Naik Susmita, Mague Joel T, Panda Dulal, Balakrishna Maravanji S
Department of Biosciences and Bioengineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.
Dalton Trans. 2014 Aug 7;43(29):11339-51. doi: 10.1039/c4dt00832d. Epub 2014 Jun 12.
The copper(i) complexes containing phosphorus donor ligands such as diazadiphosphetidine, cis-{(o-OCH2C5H4N)P(μ-N(t)Bu)}2 (1) and aminobis(phosphonite), C6H5N{P(OC6H3(OMe-o)(C3H5-p))2}2 (2, PNP), have been synthesized. Treatment of 1 with copper iodide afforded the 1D coordination polymer [{Cu(μ-I)}2{(o-OCH2C5H4N)P(μ-N(t)Bu)}2]n (3). Treatment of 3 with 2,2'-bipyridine (bpy) and 1,10-phenanthroline (phen) produced mixed-ligand complexes [(L)2Cu2{(o-OCH2C5H4N)P(μ-N(t)Bu)}2][I]2 (4 L = bpy; 5 L = phen) in good yields. The reaction of 2 with copper iodide yielded a rare tetranuclear copper complex [(CuI)2C6H5N(PR2)2]2 (6), which on subsequent treatment with various pyridyl ligands produced binuclear complexes [{Cu(μ-I)(py)}2(μ-PNP)] (7), [Cu2(μ-I)(bpy)2(μ-PNP)]I (8), [Cu2(μ-I)I(bpy)(μ-PNP)] (9), Cu2(phen)(bpy)(μ-PNP)2 (10), [Cu2(μ-I)I(phen)(μ-PNP)] (11) and [Cu2(μ-I)(phen)2(μ-PNP)]I (12), in an almost quantitative yield. The new copper(i) complexes (4, 5 and 7-12) were tested for anti-cancer activity against three human tumor cell lines. Compounds 5, 10 and 12 showed in vitro antitumor activity 5-7 fold higher than cisplatin, the most used anticancer drug. These three most potent compounds (5, 10 and 12) were chosen for detailed study to understand their mechanism of action. The copper(i) compounds studied in the present investigation were found to inhibit tumor cell growth by arresting cells at the S-phase of the cell cycle. The characteristic nuclear morphology of treated cells showed signs of DNA damage. The experimental evidence clearly indicated that these compounds initiated apoptosis, which is mediated through the p53 pathway.
已合成了含磷供体配体的铜(I)配合物,如二氮杂二磷环丁烷、顺式-{(邻甲氧基苄基)磷(μ-N(叔丁基))}₂(1)和氨基双(亚磷酸酯)、C₆H₅N{P(OC₆H₃(邻甲氧基)(对异丙基))₂}₂(2,PNP)。用碘化铜处理1得到一维配位聚合物[{Cu(μ-I)}₂{(邻甲氧基苄基)磷(μ-N(叔丁基))}₂]ₙ(3)。用2,2'-联吡啶(bpy)和1,10-菲咯啉(phen)处理3,以良好产率生成混合配体配合物[(L)₂Cu₂{(邻甲氧基苄基)磷(μ-N(叔丁基))}₂][I]₂(4,L = bpy;5,L = phen)。2与碘化铜反应生成一种罕见的四核铜配合物[(CuI)₂C₆H₅N(PR₂)₂]₂(6),其随后用各种吡啶基配体处理生成双核配合物[{Cu(μ-I)(py)}₂(μ-PNP)](7)、[Cu₂(μ-I)(bpy)₂(μ-PNP)]I(8)、[Cu₂(μ-I)I(bpy)(μ-PNP)](9)、[Cu₂(phen)(bpy)(μ-PNP)](OTf)₂(10)、[Cu₂(μ-I)I(phen)(μ-PNP)](11)和[Cu₂(μ-I)(phen)₂(μ-PNP)]I(12),产率几乎定量。测试了新的铜(I)配合物(4、5和7 - 12)对三种人类肿瘤细胞系的抗癌活性。化合物5、10和12显示出比最常用的抗癌药物顺铂高5 - 7倍的体外抗肿瘤活性。选择这三种最有效的化合物(5、10和12)进行详细研究以了解其作用机制。在本研究中所研究的铜(I)化合物被发现通过使细胞停滞在细胞周期的S期来抑制肿瘤细胞生长。处理后细胞的特征性核形态显示出DNA损伤的迹象。实验证据清楚地表明这些化合物引发了凋亡,其通过p53途径介导。
