1620060-89-0

Upstream product

• 66-71-7 1,10-Phenanthroline 
• 1580528-49-9 [Cu₂(μ-I)(μ₄-I){C₆H₅N{P(OC₆H₃(OMe-o)(C₃H₅-p))₂}₂}]₂ 

Relevant academic research and scientific papers

Dinuclear CuI complexes of pyridyl-diazadiphosphetidines and aminobis(phosphonite) ligands: Synthesis, structural studies and antiproliferative activity towards human cervical, colon carcinoma and breast cancer cells

The copper(i) complexes containing phosphorus donor ligands such as diazadiphosphetidine, cis-{(o-OCH2C5H4N)P(μ- NtBu)}2 (1) and aminobis(phosphonite), C6H 5N{P(OC6H3(OMe-o)(C3H 5-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- NtBu)}2]n (3). Treatment of 3 with 2,2′-bipyridine (bpy) and 1,10-phenanthroline (phen) produced mixed-ligand complexes [(L)2Cu2{(o-OCH2C5H 4N)P(μ-NtBu)}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)2C6H 5N(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)](OTf)2 (10), [Cu 2(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. This journal is the Partner Organisations 2014.