Synthesis of tris(quinoline)monochloroplatinum(II) Chloride and its Activity Alone and in Combination with Capsaicin and Curcumin in Human Ovarian Cancer Cell Lines.

Currently used platinum drugs fail to provide long-term cure for ovarian cancer mainly because of acquired drug resistance. With the idea that the difference may translate into an altered spectrum of activity, monofunctional planaramineplatinum(II) complex tris(quinoline)monochloro-platinum chloride (coded as LH5) was synthesized and investigated for its activity against human ovarian A2780, cisplatin-resistant A2780 (A2780(cisR)) and ZD0473-resistnat A2780 (A2780(ZD0473R)) cancer cell lines alone and in combination with the phytochemicals capsaicin (Caps) and curcumin (Cur) as a function of concentration and sequence of administration. Cell viability was quantified using the MTT reduction assay, while combination was used as a quantitative measure of the combined drug action. LH5 is found to be more active than cisplatin (CS) against both resistant cell lines. Combination of LH5 with capsaicin showed synergism in all three cell lines, with the bolus being most synergistic. Lack of association between the levels of platinum accumulation and platinum-DNA with cytotoxicity can be seen to indicate that binding with DNA may not be the main determinant of activity of LH5. Greater activity of LH5 compared to cisplatin, especially against the resistant cell lines, indicates that the compound may have the potential for development as a novel anticancer drug and that its combination with phytochemicals can serve to further enhance drug efficacy.

Lysosomal membrane stability plays a major role in the cytotoxic activity of the anti-proliferative agent, di-2-pyridylketone 4,4-dimethyl-3-thiosemicarbazone (Dp44mT).

The potent and selective anti-tumor agent, di-2-pyridylketone 4,4-dimethyl-3-thiosemicarbazone (Dp44mT), localizes in lysosomes and forms cytotoxic copper complexes that generate reactive oxygen species (ROS), resulting in lysosomal membrane permeabilization (LMP) and cell death. Herein, the role of lysosomal membrane stability in the anti-tumor activity of Dp44mT was investigated. Studies were performed using molecules that protect lysosomal membranes against Dp44mT-induced LMP, namely heat shock protein 70 (HSP70) and cholesterol. Up-regulation or silencing of HSP70 expression did not affect Dp44mT-induced LMP in MCF7 cells. In contrast, cholesterol accumulation in lysosomes induced by the well characterized cholesterol transport inhibitor, 3-ß-[2-(diethyl-amino)ethoxy]androst-5-en-17-one (U18666A), inhibited Dp44mT-induced LMP and markedly and significantly (p<0.001) reduced the ability of Dp44mT to inhibit cancer cell proliferation (i.e., increased the IC(50)) by 140-fold. On the other hand, cholesterol extraction using methyl-ß-cyclodextrin enhanced Dp44mT-induced LMP and significantly (p<0.01) increased its anti-proliferative activity. The protective effect of U18666A in increasing lysosomal cholesterol and preventing the cytotoxic activity of Dp44mT was not due to induced autophagy. Instead, U18666A was found to decrease lysosomal turnover, resulting in autophagosome accumulation. Moreover, preincubation with U18666A did not prevent the ability of Dp44mT to induce autophagosome synthesis, indicating that autophagic initiation via Dp44mT occurs independently of LMP. These studies demonstrate the significance of lysosomal membrane stability in relation to the ability of Dp44mT to execute tumor cell death and overcome pro-survival autophagy. Hence, lysosomal-dependent cell death induced by Dp44mT serves as an important anti-tumor strategy. These results are important for comprehensively understanding the mechanism of action of Dp44mT.

Combination of Genistein and Cisplatin with Two Designed Monofunctional Platinum Agents in Human Ovarian Tumour Models.

A great amount of research effort has been directed at platinum compounds that bind with DNA differently from cisplatin with the idea that the difference may translate into an altered spectrum of activity. Recently research has also been directed at applying combinations of platinum agents with tumour-active phytochemicals with the aim of providing a means of overcoming platinum resistance in ovarian cancer. Herein we report the synthesis of monofunctional platinum tris(3-hydroxypyridine)chloroplatinum(II) chloride (coded as LH1) and tris(imidazole)chloroplatinum(II) chloride (coded as LH2), and their activity alone and in combination with genistein and cisplatin against human ovarian A2780, cisplatin-resistant A2780(cisR) and picoplatin-resistant A2780(ZD0473R) cancer cell lines. Although both LH1 and LH2 were found to be less active than cisplatin against the tumour models, they produced synergistic outcomes in combination with genistein. Both the level of cellular accumulation of Pt and of Pt-DNA binding resulting from the combination were greater in the A2780(cisR) cell line than in the parental A2780 cell line, irrespective of the sequence of administration. Absence of association between activity of LH1 and LH2 and the level of Pt-DNA binding indicates that the cell death induced by LH1 and LH2 may not be limited to the effect of their binding with DNA.

Monofunctional Platinum-containing Pyridine-based Ligand Acts Synergistically in Combination with the Phytochemicals Curcumin and Quercetin in Human Ovarian Tumour Models.

With the idea that platinum compounds that bind with DNA differently than cisplatin may be better-able to overcome platinum resistance in ovarian tumor, the monofunctional platinum complex tris(imidazo(1,2-α)pyridine) chloroplatinum(II) chloride (coded as LH6) has been synthesized and investigated for its activity, alone and in combination with the phytochemicals curcumin and quercetin, against human ovarian A2780, A2780(cisR) and A2780(ZD0473R) cancer cell lines. LH6 is found to be more active than cisplatin against the resistant cell lines and its bolus combinations with curcumin and quercetin are found to produce more pronounced cell kill. Whereas platinum accumulation from cisplatin is found to increase almost linearly with time, that from LH6 reaches a maximum at 4 h and is somewhat lowered at 24 h. It is possible that the presence of bulky hydrophobic imidazo (1,2-α-pyridine) ligand in LH6 facilitates its rapid uptake through the cytoplasmic membrane. Lower platinum accumulation at 24 h than at 4 h for LH6 can be seen to imply that efflux processes may be more dominant as the period of incubation is increased. When platinum-DNA binding levels at 24 h are compared, cisplatin is found to be associated with the higher level in the parent A2780 cell line and LH6 in the resistant A2780(cisR) cell line, in line with greater activity of cisplatin in the parent cell line and that of LH6 in the resistant cell line. If the observed in vitro activity of LH6 is confirmed in vivo, it can be seen to have the potential for development as novel platinum based anticancer drug.

Synthesis of a monofunctional platinum compound and its activity alone and in combination with phytochemicals in ovarian tumor models.

Currently used platinum drugs fail to provide long-term cure for ovarian cancer mainly because of acquired drug resistance. In this study, a new monofunctional planaramineplatinum(II) complex, namely tris(8-hydroxyquinoline)monochloroplatinum(II) chloride (coded as LH3), was synthesised and investigated for its activity against human ovarian A2780, cisplatin-resistant A2780 (A2780(cisR)) and ZD0473-resistant A2780 (A2780(ZD0473R)) cancer cell lines, alone and in combination with the phytochemicals curcumin, genistein and resveratrol. Cellular levels of glutathione in A2780 and A2780(cisR) cell lines before and after treatment with LH3 and its combinations with genistein and curcumin were also determined. Interaction of the compounds with salmon sperm DNA, pBR322 plasmid DNA and damage to DNA in A2780 and A2780(cisR) cells due to interaction with LH3-alone and in combination with phytochemicals were also investigated. LH3 was found to be much more active than cisplatin against the resistant tumor models and greatest synergism in activity was observed when combinations of LH3 with genistein and curcumin were administered as a bolus. For combinations of LH3 with the phytochemicals, platinum accumulation and the level of Pt-DNA binding were found to be greater in the resistant A2780(cisR) cell line than in the parental A2780 cell line. Greater activity of LH3 than cisplatin against the resistant ovarian cell lines indicates that it may have the potential for development as a novel anticancer drug and that its combination with phytochemicals can serve to further enhance drug efficacy.

Synergism from combinations of tris(benzimidazole) monochloroplatinum(II) chloride with capsaicin, quercetin, curcumin and cisplatin in human ovarian cancer cell lines.

In the present study, synergism in activity from the sequenced combinations of monofunctional platinum tris(benzimidazole)monochloroplatinum(II) chloride (coded as LH4) with capsaicin, quercetin, curcumin and cisplatin was investigated as a function of sequence of administration in a number of human ovarian tumor models. Cellular accumulations of platinum and the levels of platinum-DNA binding were also determined for the 0/0 h and 4/0 sequences of administration. LH4 was found to be more active against the resistant A2780(cisR) and A2780(ZD0473R) cell lines than the parent A2780 cell line. As applied to combinations of LH4 with phytochemicals capsaicin, quercetin and curcumin, bolus administration was found to be most synergistic in both the parent A2780 and the resistant A2780(cisR) cell lines. For the combinations of LH4 with cisplatin, additiveness was observed in both the resistant cell lines but mild synergism was observed in the parent cell line. Greater activity of designed monofunctional platinum LH4 against resistant tumor models and synergism from combinations with phytochemicals indicate that the compound has the potential for development as a novel platinum-based anticancer drug.