Biotransformation of the platinum drug JM216 following oral administration to cancer patients

 This study evaluates the metabolic profile of JM216 [bis(acetato)ammine-dichloro(cyclohexylamine) platinum(IV)], the first orally administrable platinum complex, in plasma ultrafiltrates of 12 patients (n=2–4 time points per patient) following different doses of drug (120, 200, 340, 420, 560 mg/m²). The biotransformation profile was evaluated by high-performance liquid chromatography (HPLC) followed by atomic absorption spectrophotometry (AA). The AA profiles were compared with those previously identified by HPLC on line with mass spectrometry (HPLC-MS) in plasma incubated with JM216. A total of six platinum peaks (Rt=5.5, 7.2, 10.6, 12.4, 15.6, and 21.6 min, respectively) were observed in patients’ plasma ultrafiltrate samples, of which only four appeared during the first 6 h post-treatment. Four of these coeluted with those observed and identified previously in plasma incubation medium. No parent JM216 was detected. The major metabolite seen in patients was the Pt II complex JM118 [cis-amminedichloro-(cyclohexylamine)platinum (II)] and was observed in all the patients. Interestingly, the second metabolite was shown to coelute with the Pt IV species JM383 [bis-acetatoammine(cyclohexylamine)dihydroxoplatinum (IV)]. Both JM118 and JM383 were identified by HPLC-MS in a clinical sample. Peak C, which was a minor product (less than 5% of the free platinum), coeluted with JM559 [bis-acetatoammine-chloro(cyclohexylalamine)hydroxoplatinum (IV)]. The cytotoxicity profile of all three metabolites in a panel of cisplatin-sensitive and -resistant human ovarian carcinoma cell lines was very close to that of the parent drug. In addition, the concentrations of JM118 reached in patients’ plasma ultrafiltrate were comparable with the cytotoxic levels of the compound determined in the ovarian carcinoma panel of cell lines. Two metabolites were seen in patients but not in the in vitro incubation medium, suggesting the involvement of a possible enzyatic reaction. Thus, the biotransformation profile following oral administration of JM216 shows a variety of Pt(IV) and Pt(II) metabolites in plasma that differ significantly from other systemically applied platinum drugs. Received: 8 May 1995/Accepted: 6 October 1995     

Activity of a trinuclear platinum complex in human ovarian cancer cell lines sensitive and resistant to cisplatin: cytotoxicity and induction and gene-specific repair of DNA lesions

A collateral sensitivity or a very modest cross-resistance to BBR 3464 was found in 2 ovarian cancer cell lines with experimentally induced resistance to cisplatin. Loss of mismatch repair proteins (hMLH1, hPMS2) or overexpression of nucleotide excision repair proteins (ERCC1) was not detrimental for the cellular sensitivity to BBR 3464. Moreover, interesting differences in the kinetics of formation and removal of DNA lesions at the single-gene (N- ras) level were observed between BBR 3464 and CDDP.     

Enhanced susceptibility of oral squamous cell carcinoma cell lines to FAS-mediated apoptosis by cisplatin and 5-fluorouracil

Our study was conducted to investigate whether anticancer drugs, cisplatin (CDDP) and/or 5-fluorouracil (5-FU), can modulate Fas-mediated apoptosis in oral squamous cell carcinoma (OSCC) cell lines. When OSCC cell lines, NA and HSC-4, were treated with CDDP and/or 5-FU, Fas and its mRNA expression on the plasma membrane were enhanced. An increase in caspase-3 and -8 activities was then observed by the addition of agonistic anti-Fas antibody, CH-11. Apoptosis of OSCC cells treated with anticancer drugs were significantly enhanced by CH-11, whereas untreated cells were nearly resistant to apoptosis. Moreover, the combination of CDDP and 5-FU resulted in an increasing susceptibility to apoptosis. Caspase-3 and -8 inhibitors, but not caspase-9 inhibitor, reduced Fas-mediated apoptosis enhanced by the anticancer drugs. Furthermore, OSCC cells treated with anticancer drugs exhibited decreased cellular FADD-like interleukin 1-converting enzyme-inhibitory protein (c-FLIP) levels, whereas neither the Fas-associated death domain-containing protein (FADD) nor procaspase-8 changed the expression. Moreover, antisense oligonucleotide to c-FLIP confirmed that down-regulation of c-FLIP induced sensitization to Fas-mediated apoptosis. These results suggest that CDDP and 5-FU may enhance the susceptibility to Fas-mediated apoptosis through down-regulation of c-FLIP. From these findings, a new potential strategy may be developed to improve the efficacy of anticancer drugs.     

DNA damage inducible-gene expression following platinum treatment in human ovarian carcinoma cell lines

 Repair of cisplatin-damaged DNA was investigated in a human ovarian carcinoma cell line (2008) and its cisplatin-resistant variant (C13^*) using a host-cell reactivation (HCR) assay. The HCR of cisplatin-damaged adenovirus (Ad) was not significantly different in C13^* cells compared to 2008 cells. The cisplatin concentrations required to reduce the amount of viral DNA replicated to 50% were 0.12±0.02 μM and 0.10±0.01 μM after 48 h of repair in 2008 and C13^* cells respectively. Similarly, the cisplatin concentration required to reduce the expression of a reporter gene inserted in the viral DNA was not significantly altered in C13^* cells compared to the parental line (IC₅₀ values were 0.28±0.04 μM in 2008 cells and 0.17±0.06 μM in C13^* cells after 48 h of repair). Pretreatment of the cells with cisplatin, immediately prior to Ad infection, did not significantly alter the HCR of cisplatin-damaged Ad in either cell type. In addition, a cisplatin-sensitive variant derived from the C13^* cells, namely the RH4 cells, did not differ significantly from either the 2008 or C13^* cells in their ability to reactivate cisplatin-damaged Ad. Furthermore, a component of the nucleotide excision repair (NER) pathway, DNA polymerase α, was investigated using the competitive inhibitor aphidicolin. The combination of cisplatin and aphidicolin resulted in similar synergistic growth inhibition in both the 2008 and C13^* cells providing additional support to the HCR results which suggest that enhanced NER is not responsible for the cisplatin resistance in C13^* cells. Received: 21 April 1995/Accepted: 9 October 1995     

A comparison of hyperthermia cisplatin sensitization in human ovarian carcinoma and glioma cell lines sensitive and resistant to cisplatin treatment

 Two pairs of human tumor cell lines (glioma and ovarian carcinoma (OvCa)) each having a parental cell line and cisplatin-resistant variant, were evaluated for (a) cisplatin response, (b) hyperthermia response, and (c) combined hyperthermia and cisplatin response. The two resistant lines had comparable resistant responses while for the parental lines, the OvCa was more sensitive than the glioma to cisplatin doses up to 14 μg/ml. For the hyperthermia response, the OvCa parental line was more resistant than the variant line at low-temperature hyperthermia (41° C or 42°C) but became more sensitive at high temperature (45°C). For the glioma, the parental line was more sensitive to hyperthermia at all temperatures tested. Hyperthermia caused sensitization to cisplatin in all cell lines but was generally greater in the glioma cell lines. In the OvCa system, hyperthermia had a slightly greater sensitizing effect on the resistant cell lines, while in the glioma the opposite was true. The degree of sensitization increased with hyperthermia temperature. In summary, the results showed that there is no cross-resistance for hyperthermia and cisplatin, that the degree of thermal sensitization is not reduced in cisplatin-resistant cell lines, and that cisplatin thermal sensitization is cell-line and temperature dependent. Thus, hyperthermia can effectively improve tumor cell response to cisplatin and may be useful in overcoming resistance to cisplatin. Received: 10 March 1995/Accepted: 21 July 1995     

cis-Diamminedichloroplatinum(II)-induced cell death through apoptosis in sensitive and resistant human ovarian carcinoma cell lines

 We have studied the effects of the chemother-apeutic drug cis-diamminedichloroplatinum(II) (cisplatin) on three human ovarian carcinoma cell lines – one sensitive to the drug (CH1), one with acquired resistance (CH1cisR) and one with intrinsic resistance (SKOV-3). Previous work has shown that the 50% inhibitory concentrations (IC₅₀ values) after a 2-h exposure to the drug are: CH1, 2.5 μM; CH1cisR, 7.5 μM; and SKOV-3, 33 μM. Despite the variation in sensitivity, the amount of Pt bound to DNA and the rate of removal of Pt was similar for the three lines. There were significant differences in the rates of formation of DNA cross-links but these were not large enough to account for the high resistance of the SKOV-3 line. We have reported that in the L1210 murine leukaemia cell line there are two mechanisms of cisplatin-induced cell death – one of which involves apoptosis. In this paper, we report on an investigation into whether sensitivity to apoptosis played a role in the resistance of these ovarian lines towards cisplatin. After a 2-h incubation with the drug, cells from the three lines showed evidence of death through apoptosis. The cells detached from the culture dish in a time- and dose-dependent fashion. These cells morphologically were quite distinctive from the attached cells and showed changes in their chromatin structure indicative of apoptosis. Their DNA had not been degraded into oligonucleosomal fragments (200 bp and multiples thereof) but had been cut into larger fragments (30 kilobase pairs, kbp) of a size associated with chromatin domains (chromatin loops). At equitoxic doses of drug, the quantity of cells undergoing apoptosis was similar for the three cell lines. The most prominent effect on cell-cycle kinetics was a slowdown in S-phase transit during which the cells underwent apoptosis. Cells that successfully completed the S phase subsequently suffered a temporary G2 block. We propose that the sensitivity of these cell lines to cisplatin was governed by their ability to handle damage caused by platination of the DNA and that the major mechanism of cisplatin-induced cell death in all three cell lines was the induction of apoptosis. Received: 13 December 1994/Accepted: 6 June 1995     

Overexpression of DDB2 enhances the sensitivity of human ovarian cancer cells to cisplatin by augmenting cellular apoptosis

Cisplatin is one of the most widely used anticancer agents, displaying activity against a wide variety of tumors. However, development of drug resistance presents a challenging barrier to successful cancer treatment by cisplatin. To understand the mechanism of cisplatin resistance, we investigated the role of damaged DNA binding protein complex subunit 2 (DDB2) in cisplatin‐induced cytotoxicity and apoptosis. We show that DDB2 is not required for the repair of cisplatin‐induced DNA damage, but can be induced by cisplatin treatment. DDB2‐deficient noncancer cells exhibit enhanced resistance to cell growth inhibition and apoptosis induced by cisplatin than cells with fully restored DDB2 function. Moreover, DDB2 expression in cisplatin‐resistant ovarian cancer cell line CP70 and MCP2 was lower than their cisplatin‐sensitive parental A2780 cells. Overexpression of DDB2 sensitized CP70 cells to cisplatin‐induced cytotoxicity and apoptosis via activation of the caspase pathway and downregulation of antiapoptotic Bcl‐2 protein. Further analysis indicates that the overexpression of DDB2 in CP70 cells downregulates Bcl‐2 expression through decreasing Bcl‐2 mRNA level. These results suggest that ovarian cancer cells containing high level of DDB2 become susceptible to cisplatin by undergoing enhanced apoptosis.     

Selective sensitivity to carboxyamidotriazole by human tumor cell lines with DNA mismatch repair deficiency

We have previously reported that high-dose nifedipine had a selective antiproliferative effect on colon cancer cell lines deficient in DNA mismatch repair (MMR). We hypothesized that carboxyamidotriazole (CAI), a calcium channel blocker, would also have a selective inhibitory effect on colon cancer cell lines with DNA MMR deficiency. In addition, we speculated that this effect may also be seen in cell lines deficient in DNA MMR derived from other tumor types. Fourteen human cancer cell lines with and without DNA MMR derived from carcinomas of the colon, bladder, ovary and prostate were treated with CAI, vehicle or control drugs (nifedipine and 5-flurouracil). The effect of treatment on growth inhibition, invasion, apoptosis and cell cycle progression was assessed. Selective sensitivity to CAI was observed in all cancer cell lines deficient in MMR. Compared with the MMR-proficient cells, the matched deficient cells were significantly more sensitive to the growth inhibitory effect of CAI and nifedipine, but less sensitive to 5-flurouracil. CAI significantly inhibited the invasive ability of MMR-deficient cancer cells compared to 5-flurouracil. CAI induced more apoptosis but similar level of G(2)/M arrest in MMR (hMLH1- or hMSH6-)-deficient colon cancer cells than MMR-proficient counterparts. CAI selectively inhibits proliferation and invasion in MMR-deficient human cancer cell lines. The antitumor effect is at least partly explained by G2/M cell cycle arrest and induction of apoptosis. These findings may have clinical implications directing clinical trials in selectively targeted patients with DNA MMR tumors.     

Acute apoptosis by cisplatin requires induction of reactive oxygen species but is not associated with damage to nuclear DNA

Cisplatin is a broad-spectrum anticancer drug that is also widely used in experimental studies on DNA damage-induced apoptosis. Induction of apoptosis within 24-48 hr requires cisplatin concentrations that are at least one order of magnitude higher than the IC(50). Here, we show that such high, apoptosis-inducing cisplatin concentrations induce cellular superoxide formation and that apoptosis is inhibited by superoxide scavengers. The same concentration limit and the requirement for superoxide are also true for induction of caspase activation in enucleated cells (cytoplasts), showing that cisplatin-induced apoptosis occurs independently of nuclear DNA damage. In contrast, lower cisplatin concentrations, which do not induce acute apoptosis, are sufficient for induction of DNA damage signaling. We propose that the antiproliferative effects of cisplatin at IC(50) doses involve premature senescence and secondary, nonstress-induced apoptosis. The higher doses currently used in in vitro studies lead to acute, stress-induced apoptosis that involves induction of superoxide but is largely DNA damage-independent.     

Cytotoxicity of antitumor platinum complexes withl-buthionine-(R,S)-sulfoximine and/or etanidazole in human carcinoma cell lines sensitive and resistant to cisplatin

Human 2008 ovarian carcinoma cells and the C13 CDDP-resistant subline and human MCF-7 breast carcinoma cells and the MCF-7/CDDP CDDP-resistant subline were exposed tol-buthionine-(S, R)-sulfoximine (50 M) for 48 h prior to and during exposure for 1 h to the antitumor platinum complexes,cis-diamminedichloroplatinum(II), carboplatin or D,L-tetraplatin and/or to etanidazole (1 mM) for 2 h prior to and during exposure for 1 to the antitumor platinum complexes. These modulators alone did not significantly alter the cytotoxicity of CDDP toward either parental line. A twofold enhancement in cytotoxicity was observed with carboplatin in the 2008 cells and with D,L-tetraplatin in both parental lines with the single modulators. The modulator combination (buthionine sulfoximine/etanidazole) was very effective along with D,L-tetraplatin in both the MCF-7 parent and MCF-7/CDDP cell lines where at the higher platinum complex concentrations there was 1.5 to 3 logs increased killing of cells by the drug plus the modulators compared with the drug alone. Similarly, when C13 cells were exposed to CDDP (100 M) or D,L-tetraplatin (100 M) along with buthionine sulfoximine and etanidazole there was a 2-log increase in cell killing compared with exposure to the platinum complex alone. Treatment of each of the four cell lines with buthionine sulfoximine decreased both the non-protein and total sulfhydryl content of the cells. Treatment with the combination of modulators did not produce a further decrease in cellular sulfhydryl content compared with buthionine sulfoximine alone. The total sulfhydryl content in MCF-7 cells and 2008 cells exposed to buthionine sulfoximine and etanidazole was 58% and 31% of normal and the total sulfhydryl content of MCF-7/CDDP cells and C13 cells treated the same way was 54% and 23% of normal, respectively. DNA alkaline elution was used to assess the impact of exposure to the modulators, buthionine sulfoximine and etanidazole, alone and in combination on the cross linking of DNA by the antitumor platinum complexes in the MCF-7 and MCF-7/CDDP cell lines. Overall, the increases in DNA cross linking factors were greater in the MCF-7 cells than in the MCF-7/CDDP cells. These results indicate a possible clinical potential for this modulator combination.This work supported by NIH grant P01-CA 38493.     

Antitumor activity and apoptosis induction in human cancer cell lines by Dionysia termeana

Studies have demonstrated that plant extracts possess various biological effects including antitumor activity. In the present study, the antitumor activity of Dionysia termeana, a plant native to Iran, was investigated. Cytotoxic activity of the extract on tumor cell lines using MTT colorimetric assay was determined. Cell cycle analysis by flow cytometry and DNA fragmentation analysis on sensitive cell lines was then carried out. Results obtained indicated that the highest activity of D. termeana was against K562 leukemia cell line with IC50 less than 20 μ g/mL. Fifty-five percent inhibition of Jurkat cells due to exposure to D. termeana was found at 200 μ g/mL of the extract. A549, a lung carcinoma cell, and Fen bladder carcinoma cell line were less affected. In flow cytometry analysis, D. termeana induced apoptosis in the K562 and Jurkat cells. In DNA fragmentation analysis the extract produced ladder formation in both cells. In conclusion, these results indicated that the extract used in this study have antitumor activity through induction of apoptosis particularly in the leukemia cell lines.     

Selective potentiation of platinum drug cytotoxicity in cisplatin-sensitive and-resistant human ovarian carcinoma cell lines by amphotericin B

Resistance to the clinically used platinum-based drugs cisplatin and carboplatin represents a major limitation to their clinical effectiveness. Using cisplatin-sensitive and-resistant human ovarian carcinoma cell lines previously characterized in terms of their major underlying mechanisms of resistance, we attempted to potentiate the cytotoxic effects of cisplatin and carboplatin using the clinically used antifungal agent amphotericin B (AmB). Using nontoxic concentrations of AmB (up to 15 g/ml) and continuous exposure to cisplatin, a concentration-dependent selective potentiation (maximum of 3.2-fold) of cisplatin cytotoxicity was observed in two cisplatin-resistant cell lines (41 McisR6, acquired resistant, and HX/62, intrinsically resistant). In both these cisplatin-resistant cell lines, previous studies have shown resistance to be due primarily to reduced platinum uptake. Notably, no significant potentiation was observed in the parent 41M cell line, in the intrinsically resistant SKOV-3 cell line (where reduced drug accumulation plays only a partial role in determining resistance) or in a pair of cell lines (CH1 and its acquired-resistant variant CH1cisR6) where reduced drug uptake does not play any role in determining resistance. The potentiating effect of AmB was lower with carboplatin and not significant in all cell lines. Platinum uptake following a 2-h exposure of cells to cisplatin was enhanced 3.5-fold in 41McisR6 cells (producing platinum levels similar to those obtained in the parental line) and 1.7-fold in 41M cells by the concomitant exposure to AmB. These data indicate that the potentiation of cisplatin (and carboplatin) cytotoxicity by AmB is not due to a generalized membrane disruption, as effects were observed only in resistant lines where reduced drug transport was apparent. Moreover, AmB did not increase the cytotoxicity of JM216 [bis-acetatoammine(cyclohexylamine)dichloroplatinum (II)], a recently developed, more lipophilic orally active platinum drug, in the 41M/41McisR6 lines. JM216 has previously been shown to circumvent acquired cisplatin resistance due to decreased drug uptake. In vivo, however, using the HX/62 xenograft, AmB (at its maximum tolerated dose of 20 mg/kg; q7d×4 schedule) did not enhance the antitumour effect of carboplatin (at its maximum tolerated dose of 80 mg/kg; q7d×4 schedule).This study was supported by grants to the Institute of Cancer Research from the Cancer Research Campaign and the Medical Research Council, the Johnson Matthey Technology Centre and Bristol Myers Squibb Oncology     

In vitro platinum drug chemosensitivity of human cervical squamous cell carcinoma cell lines with intrinsic and acquired resistance to cisplatin.

The platinum drug chemosensitivity of five human cervical squamous cell carcinoma cell lines (HX/151, HX/155, HX/156, HX/160 and HX/171) derived from previously untreated patients has been determined. Compared to our data obtained previously using human ovarian carcinoma cell lines, all five lines were relatively resistant to cisplatin, carboplatin, iproplatin and tetraplatin. One of the lines (HX/156) was exceptionally sensitive to the novel platinum (IV) ammine/amine dicarboxylates JM216 [bis-acetatoammine dichloro (cyclohexylamine) platinum (IV)] and JM221 [ammine dibutyrato dichloro (cyclohexylamine) platinum (IV)]. The range in IC50 values across the five lines was approximately 2.5-fold for cisplatin, carboplatin and iproplatin, 13-fold for tetraplatin and JM216, and 25-fold for JM221. No significant correlation (P > 0.05) was observed between platinum drug chemosensitivity and either glutathione levels or cadmium chloride sensitivity, an indicator of metallothionein levels. In addition, there was no significant correlation (P > 0.05) between cisplatin cytotoxicity and intracellular cisplatin accumulation or JM216 cytotoxicity and intracellular JM216 accumulation over the dose range 5-100 microM (2 h exposure). The exceptional sensitivity of HX/156 to JM216 appears, at least partially, to be a result of enhanced accumulation of JM216. An 8.6-fold acquired cisplatin resistant stable variant of HX/155 has been generated in vitro. Intracellular cisplatin accumulation was reduced by 2.4 +/- 0.3-fold (mean +/- s.d.) in HX/155cisR across the dose range 1-100 microM (2 h exposure). Glutathione levels in HX/155cisR were elevated by 1.3-fold in terms of protein content and by 1.6-fold in terms of cell number. HX/155cisR was 1.9-fold resistant to cadmium chloride. Total platinum bound to DNA after cisplatin exposure (10, 25, 50 or 100 microM for 2 h) was 3.6 +/- 0.6-fold (mean +/- s.d.) lower in HX/155cisR. Hence the mechanism of acquired cisplatin resistance in HX/155cisR appears to be multifocal, with reduced intracellular drug accumulation and elevated glutathione and metallothionein levels combining to reduce DNA platination levels. While HX/155cisR was cross-resistant to tetraplatin and carboplatin, novel platinum (II) and (IV) ammine/amine complexes, including JM216 and JM221, partially circumvented resistance (resistance factors of 1.5-2). Non cross-resistance was observed to iproplatin and nine non-platinum anticancer agents. Intracellular tetraplatin accumulation was reduced by 1.8 +/- 0.1-fold (mean +/- s.d.) in HX/155cisR across the dose range 1-100 microM (2 h exposure). In contrast, after JM216 exposure (1-100 microM for 2 h), no significant difference in intracellular platinum levels between HX/155 and HX/155cisR was observed.(ABSTRACT TRUNCATED AT 400 WORDS)     

顺铂诱导鼻咽癌CNE-2细胞自噬和凋亡的体外研究

目的:研究顺铂在体外应用对人鼻咽癌CNE-2细胞凋亡与自噬的影响,并探讨其可能机制。方法:采用流式细胞术检测细胞周期分布、细胞凋亡率和MDC阳性率;RT-PCR法检测Mcl-1、Bcl-2、Bad、Bax、Caspase-3、Beclin1和LC3 mRNA表达。结果:在实验浓度范围内,顺铂作用CNE-2细胞48h后,2、4、8μg/ml各干预组总凋亡率分别为(8.71±1.03)%、(11.34±1.17)%、(15.30±2.24)%;MDC阳性率分别为(5.36±0.48)%、(7.52±0.32)%、(10.65±0.70)%;与0μg/ml组比较,G2/M期阻滞率分别增加45.97%、73.99%、267.34%;Bcl-2和Mcl-1 mRNA表达剂量依赖性降低,Bax、Bad、Caspase-3、Beclin1和LC3 mRNA表达剂量依赖性增加,且4μg/ml和8μg/ml与0μg/ml组比较,以上研究指标差别均有统计学意义(P<0.05)。结论:顺铂可诱导鼻咽癌CNE-2细胞发生G2/M期阻滞、细胞凋亡和自噬性细胞死亡,对CNE-2细胞具有杀伤作用,其分子机制可能与Bcl-2表达下调和Caspase-3、Beclin1表达上调有关。     

IL-6 signaling contributes to cisplatin resistance in non-small cell lung cancer via the up-regulation of anti-apoptotic and dna repair associated molecules

Cisplatin-based chemotherapy is currently the most effective treatment regimen for non-small cell lung cancer (NSCLC), but eventually tumor resistance develops which limits its success. The potential implication of IL-6 signaling in the cisplatin resistance of NSCLC was explored by testing whether NSCLC cells with different levels of intracellular IL-6 show different responses to the cytotoxic treatment of cisplatin. When the cisplatin cytotoxicity of the IL-6 knocked down human NSCLC cells (A549IL-6si and H157IL-6si) were compared with their corresponding scramble control cells (A549sc and H157sc), higher cisplatin cytotoxicity was found in IL-6 si cells than sc cells. Subcutaneous xenograft mouse models were developed using a pair of A549sc and A549IL-6si cells. When the tumor grew to about 400 mm², mice were treated with cisplatin and tumor regression was monitored. Higher tumor regression was detected in the A549IL-6si xenografts compared to A549sc xenografts following cisplatin treatment. Immunostaining study results from tumor tissues also supported this finding. Expression of anti-apoptotic proteins Bcl-2 and Mcl-1 and DNA repair associated molecules ATM, CHK1, TP73, p53, and ERCC1 were significantly up regulated in cisplatin-treated A549sc and H157sc cells, but no increase was detected in A549IL-6si and H157IL-6si cells. Further inhibitor studies revealed that up regulation of these molecules by IL-6 may be through activation of IL-6 downstream signaling pathways like Akt, MAPK, Stat3, and Erk. These results provide potential for combining cisplatin and inhibitors of IL-6 signaling or its downstream signaling pathway as a future therapeutic approach in preventing development of cisplatin resistant NSCLC tumors.     

Long-term activation of SAPK/JNK, p38 kinase and fas-L expression by cisplatin is attenuated in human carcinoma cells that acquired drug resistance

Tumor cells chronically exposed to cisplatin (cDDP) acquire cDDP resistance that impacts tumor therapy. To elucidate the mechanism of acquired cDDP resistance (ACR), we compared HeLa cells that gained ACR upon chronic cDDP treatment with the parental strain. We show that ACR is due to a lower level of induced apoptosis. Further, upon cDDP treatment, the levels of Fas, Bax and Bid remained unchanged, whereas Bcl-2 and p-Bad were reduced at late times (120 hr) after treatment. At early times, Fas ligand (fas-L) expression was significantly enhanced in sensitive compared to resistant cells and remained upregulated up to the onset of apoptosis. Thus, activation of the Fas system is critical, which is in line with the finding that in sensitive cells, caspase-8 along with caspase-9 and -3 were activated by cDDP. cDDP provoked the activation of stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK) and p38 kinase dose-dependently, with significantly lower levels in ACR cells than in the sensitive parental line. cDDP induces c-Jun and AP-1 activity, as measured by a reporter gene assay, which was again attenuated in ACR cells. Time course analysis revealed that SAPK/JNK and p38 kinase activity was sustained upregulated (> 72 hr postexposure), which occurred at much higher level in sensitive than in ACR cells. Inhibition of either JNK or p38 kinase (by JNK inhibitor II and SB 203580, respectively) attenuated cDDP-induced apoptosis, supporting the role of JNK and p38 kinase in the cDDP response. Since several independently derived cDDP-resistant cell lines displayed attenuated MAPK signaling, sustained SAPK/JNK and p38 kinase activation may be a general mechanism of cDDP-induced cell death. ACR cells displayed a reduced level of DNA damage, indicating long-term stimulation of SAPK/JNK and p38 kinase is triggered by nonrepaired cDDP-induced DNA lesions.     

褪黑素联合顺铂通过诱导细胞凋亡抑制人胶质瘤细胞U251和SHG-44增殖

目的：研究褪黑素（melatonin,MT）和顺铂（cisplatin,DDP）单独或联合应用对人胶质瘤细胞U251和SHG-44增殖及凋亡的影响。方法：采用不同质量浓度MT和DDP单独或联合处理U251和SHG-44细胞,并设对照组（不加任何药物）及乙醇组（加入乙醇）;以CCK-8法检测细胞的增殖,流式细胞术检测细胞的凋亡和细胞周期,采用两药相互作用指数（coefficient of drug interaction,CDI）评估MT是否影响U251和SHG-44细胞对DDP的敏感性。结果：CCK-8结果显示,单用MT或DDP可浓度依赖性抑制U251和SHG-44细胞的增殖,MT还可协同增强DDP对U251和SHG-44细胞的增殖抑制作用（CDI<1）。流式细胞术检测结果显示,MT可促进U251和SHG-44细胞的凋亡,MT可增强DDP对U251和SHG-44细胞的凋亡诱导作用,0.5 mmol/L MT联合20 μg/ml DDP组U251和SHG-44的细胞凋亡率显著高于20 μg/ml DDP组\[（66.3±1.0）% vs （45.9±1.7）%,（35.5±0.8）% vs （15.5±0.8%）;均P<0.01\];而且0.5 mmol/L MT联合20 μg/ml DDP 组U251和SHG-44细胞的G1期比例显著高于20 μg/ml DDP组\[（52.4±2.1）% vs （27.9±1.5）%,（39.7±1.5）% vs （27.7±1.3）%;均P<001\]。结论：MT能显著增强DDP对人胶质瘤细胞U251和SHG-44的凋亡诱导作用,从而协同增强DDP对细胞增殖的抑制作用,有望成为人胶质瘤化疗的辅助药物。     

Cisplatin-dependent upregulation of death receptors 4 and 5 augments induction of apoptosis by TNF-related apoptosis-inducing ligand against esophageal squamous cell carcinoma

TNF-related apoptosis-inducing ligand (TRAIL) is a member of the TNF superfamily known to induce apoptosis in a variety of cancers. The purpose of our study was to examine the effects of TRAIL in combination with cisplatin against esophageal squamous cell carcinoma (ESCC) cell lines in vitro and in vivo, and to elucidate underlying molecular mechanisms. Expression profiles of TRAIL receptors were investigated in 19 ESCC (KYSE) cell lines using RT-PCR. Crystal violet staining assays were performed to reveal the sensitivity against TRAIL. Flow cytometric analyses of apoptosis induction and TRAIL receptor expression were performed. Furthermore, Western blot was used to clarify the apoptosis pathway involved, and a nude-mouse xenograft model was used to show effects in vivo. Results show that death receptors (DR) 4 and 5 were expressed in 100% of the cell lines, and 79% (15/19) expressed 4 TRAIL receptors. There was only 1 cell line without decoy receptor expression. Eighteen cell lines were resistant to TRAIL, but in some, the combination treatment with cisplatin could overcome this resistance. They underwent apoptosis via activation of caspase-8 and -3, and cisplatin-dependent upregulation of DR4 and 5 was detected. Furthermore, pretreatment with cisplatin followed by TRAIL resulted in significant tumoricidal effects. Finally, systemic administration of TRAIL with cisplatin synergistically suppressed tumor growth of ESCC xenografts in nude mice. These results provide a significance of cisplatin-induced upregulation of death receptors as apoptosis-inducing machinery, and it was suggested that sequential administration of cisplatin and TRAIL might be a feasible chemotherapeutic regimen against ESCC.     

Comparison of cellular accumulation and cytotoxicity of cisplatin with that of tetraplatin and amminedibutyratodichloro(cyclohexylamine)platinum(IV) (JM221) in human ovarian carcinoma cell lines.

We have compared the cellular accumulation and cytotoxicity of three platinum compounds in a panel of five human ovarian carcinoma cell lines. The cell lines, which were established from both untreated and pretreated patients, showed a wide range in sensitivity to cisplatin and other platinum drugs. The panel consisted of two sensitive (41M, CH1), one in vivo acquired resistant (PXN/94) with moderate sensitivity, and two intrinsically resistant (SKOV-3, HX/62) cell lines. The cisplatin 2-h concentration of drug required to inhibit cell growth by 50% compared with vehicle treated control cells (IC50 values) for these cell lines were in the following order: CH1 < 41M < PXN/94 < SKOV-3 < HX/62. None of the cell lines showed saturation of platinum accumulation (per mg protein) at 2 h after exposure to cisplatin concentrations of up to 500 microM. The highest cellular platinum accumulation was observed in the sensitive 41M cell line which was established from an untreated patient. The lowest accumulation was found in the intrinsically resistant HX/62 cell line. The rate of platinum accumulation at an equimolar concentration of cisplatin was 41M > SKOV-3 > CH1 > PXN/94 > HX/62. The relationship between drug accumulation and cytotoxicity was evaluated by comparing 2-h IC50 values with platinum accumulation following exposure to both equimolar and equitoxic doses of the agent. The results suggest that reduced drug accumulation may play a partial role in the mechanism of intrinsic resistance to cisplatin in one cell line (SKOV-3) and a major role in another (HX/62), where reduced accumulation is attributable to reduced uptake rather than enhanced efflux. Decreased drug accumulation may also contribute significantly to the lower sensitivity of the PXN/94 cell line to cisplatin. Interestingly, both the PXN/94 and the sensitive CH1 cell lines, which were established from patients pretreated with platinum drugs, showed reduced drug accumulation relative to the 41M cell line. Cellular accumulation of tetraplatin and JM221 [(ammine)dibutyratodichloro(cyclohexylamine)platinum(IV)], a novel platinum(IV) dicarboxylate complex exhibiting enhanced cytotoxicity compared to cisplatin, was also examined. Comparison with platinum accumulation from cisplatin suggests that the increased cytotoxicity of tetraplatin and JM221 may be related to their increased accumulation. Significantly both agents are more lipophilic than cisplatin, which may account partially for their improved uptake in cisplatin resistant cells.     

Subcellular localisation of the antitumour drug mitoxantrone and the induction of DNA damage in resistant and sensitive human colon carcinoma cells

 Cellular uptake and subcellular localisation of the antitumour agent mitoxantrone were studied in a human colon-carcinoma cell line and a mitoxantrone-resistant subline showing features consistent with an atypical multidrug-resistance phenotype involving altered topoisomerase II. Flow cytometry indicated a reduced uptake of mitoxantrone in the resistant line. Confocal microscopy indicated that mitoxantrone-associated fluorescence was primarily found within discrete cytoplasmic inclusions and around the periphery of the nucleus, with low levels being observed within the nucleus. The frequency of cytoplasmic inclusions was reduced in mitoxantrone-resistant cells as compared with parental cells. Fluorescence in cytoplasmic inclusions persisted throughout a 24-h post-treatment period in both cell lines. The results suggest that the persistence of mitoxantrone in cells is a determinant for the continuous induction of DNA damage, perhaps through chronic topoisomerase II trapping, and that modified sequestration may contribute to clinically relevant moderate levels of non-classic multidrug resistance. Received: 9 May 1994 / Accepted: 16 August 1994