Determinants of drug response in a cisplatin-resistant human lung cancer cell line

To elucidate the mechanism(s) of cisplatin resistance, we have characterized a human non-small cell lung cancer cell line (PC-9/CDDP) selected from the wild type (PC-9) for acquired resistance to cisplatin. PC-9/CDDP demonstrated 28-fold resistance to cisplatin, with cross resistance to other chemotherapeutic drugs including chlorambucil (X 6.3), melphalan (X 3.7) and 3-[(4-amino-2-methyl-5-pyrimidinyl)]methyl-1-(2-chloroethyl)-1-nitros our ea (ACNU) (x 3.9). There was no expression of mdr-1 mRNA in either wild-type or resistant cells. The mRNA and protein levels of glutathione S-transferase (GST) pi were similar in the two lines. A GST-mu isozyme was present in equal amounts and the activities of selenium-dependent and independent glutathione peroxidase and glutathione reductase were unchanged. The mRNA level of human metallothionein IIA and the total intracellular metallothionein levels were reduced in the resistant cells. Significantly increased intracellular glutathione (GSH) levels were found in the resistant cells (20.0 vs 63.5 nmol/mg protein) and manipulation of these levels with buthionine sulfoximine produced a partial sensitization to either cisplatin or chlorambucil. Increased GSH probably also played a role in determining cadmium chloride resistance of the PC-9/CDDP, even though this cell line had a reduced metallothionein level. Also contributing to the cisplatin resistance phenotype was a reduced intracellular level of platinum in the PC-9/CDDP. Thus, at least two distinct mechanisms have been selected in the resistant cells which confer the phenotype and allow degrees of cross resistance to other electrophilic drugs.     

Non-cross resistance of ZD0473 in acquired cisplatin-resistant lung cancer cell lines

ZD0473 is a new generation platinum agent that, in preclinical studies, shows evidence of an extended spectrum of anti-tumor activity and overcomes platinum resistance mechanisms. The drug contains a bulky methylpyridine ligand at its platinum center, which is responsible for its ability to overcome platinum resistance. We examined the growth inhibitory effects of ZD0473 in human lung cancer cell lines resistant to cisplatin in vitro. Four cisplatin resistant human lung cancer cell lines (PC-14/CDDP, SBC-3/CDDP, PC-9/CDDP, H69/CDDP) showed the expected resistance to cisplatin but were non-cross, or much less, resistant to ZD0473, as determined by an MTT assay. A reduction in the intracellular accumulation of cisplatin, but not of ZD0473, was observed in the PC-14/CDDP cells compared with the levels in PC-14 parental cells. The reduction in cisplatin accumulation is considered a major mechanism of the acquired cisplatin resistance in PC-14/CDDP cells. Therefore, the increase in platinum accumulation is considered a possible mechanism underlying the activity of ZD0473 in cisplatin-resistant cells. Glutathione-mediated resistance to cisplatin was also overcome by ZD0473 in PC-14/CDDP cells. In addition, we showed that the intraperitoneal administration of ZD0473 at its maximum tolerable dose in mice produced a marked in vivo antitumor activity against cisplatin-resistant PC-14/CDDP tumors. These results suggest that ZD0473 may be a potent agent in human lung cancer cells with multifactorial cisplatin resistance.     

Metallothionein content correlates with the sensitivity of human small cell lung cancer cell lines to cisplatin.

We have established cis-diamminedichloroplatinum(II) (cisplatin) resistant human small cell lung cancer cell lines, H69/CDDP0.2 and H69/CDDP, to investigate the mechanism of acquired resistance to cisplatin. H69/CDDP0.2 and H69/CDDP were 6- and 11-fold resistant to cisplatin compared with the H69 parental cell line. H69/CDDP was also resistant to cadmium chloride (2-fold), cis-diammine(glycolato)platinum (4-fold), 4-hydroperoxycyclophosphamide (3-fold) and 3-[(4-amino-2-methyl-5-pyrimidinyl)methyl]-1-(2-chloroethyl)-1-nitrosour ea (4-fold) if the drug concentrations that inhibit cell growth by 50% from growth inhibition assay were compared. There was no significant difference in the cisplatin accumulation among these cell lines. Although DNA interstrand cross-link formations, determined by filter elution assay in H69/CDDP0.2 and H69/CDDP, was decreased to 20 to 30% of that in H69 parental cells, the repair capacity of DNA interstrand cross-links was equivalent in all three cell lines. Intracellular glutathione content was equal in all cell lines. H69/CDDP had the highest glutathione S-transferase activity (H69, 11 nmol/min/mg protein, H69/CDDP0.2, 12 nmol/min/mg protein; H69/CDDP, 74 nmol/min/mg protein, respectively) and an overexpression of glutathione S-transferase pi mRNA. The drug concentrations that inhibit cell growth by 50% for cisplatin in all cell lines were decreased by treatment with ethacrynic acid, an inhibitor of glutathione S-transferase pi, but this did not alter the relative degree of resistance. Intracellular metallothionein content (H69, 14 pmol/mg protein, H69/CDDP0.2, 22 pmol/mg protein; H69/CDDP, 33 pmol/mg protein, respectively) and expression of metallothionein mRNA were correlated with the drug concentrations that inhibit cell growth by 50% of the three cell lines for cisplatin and cadmium chloride. The present study suggested the importance of metallothionein in the mechanisms of cisplatin resistance.     

Reversal of Cisplatin Resistance by the 1,4-Benzothiazepine Derivative, JTV-519

The 1,4-benzothiazepine derivative JTV-519 is a new type of calcium ion channel modulator. We examined the modulatory effect of JTV-519 on the antitumor activity of several platinum compounds (cisplatin, carboplatin, and nedaplatin) in a human cancer cell line resistant to cisplatin (PC-14/CDDP) in vitro. PC-14/CDDP cells showed 8-fold resistance to cisplatin compared with the parental PC-14 cells as determined by dye formation [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltet-razolium bromide, MTT] assay. In PC-14/CDDP, but not PC-14 cells, augmentation of cytotoxicity was observed when a nontoxic concentration (10 μ) of JTV-519 was combined with the platinum compounds. Increased intracellular cisplatin accumulation was observed in PC-14/CDDP cells in the presence of JTV-519 as measured by atomic absorption assay. Therefore, increased cisplatin accumulation was considered to be a possible mechanism underlying the reversing effect of JTV-519 on cisplatin resistance. These results suggest that JTV-519 is a potent agent reversing cisplatin resistance.     

Schedule-dependent reversion of acquired cisplatin resistance by 5-fluorouracil in a newly established cisplatin-resistant HST-1 human squamous carcinoma cell line

In vitro continuous stepwise exposure of HST-I human squamous carcinoma cell line to cisplatin (CDDP) for 12 months resulted in a 3.5-fold stably resistant subline designated HST-I/CPO.2. Compared with parental cells, this cell line showed a 1.8-fold increase in cellular glutathione (GSH) and a 50% reduction in initial numbers of DNA interstrand cross-links (ICLs), despite similar levels of intracellular platinum accumulation. Evaluation of the kinetics of DNA ICL removal at nearly equivalent levels of DNA ICL formation indicated that HST-I/CPO.2 cells appeared to remove DNA ICLs more rapidly than do HST-I parental cells. Thus, both elevated cellular GSH and increased DNA repair capacity would be the major factors contributing to CDDP resistance. Pretreatment of HST-I/CPO.2 cells with 5-FU, with drug-free intervals of 24 to 48 hr before exposure to CDDP, completely reversed CDDP resistance, or even increased the sensitivity to a level greater than that of parental cells, whereas the opposite sequence had no effect on resistance. In parallel with augmentation of the cytotoxicity, the levels of cellular GSH were significantly reduced over 48 hr by 5-FU pretreatment. However, depletion of cellular GSH using buthionine sulfoximine resulted in partial reversal of CDDP resistance, indicating that reduction of cellular GSH alone is not sufficient for complete reversal of CDDP resistance. Our data, together with evidence that 5-FU modulates the repair of platinum-DNA cross-links, suggest that schedule-dependent, complete reversal of CDDP resistance by 5-FU might be attributed to its inhibitory effects on both GSH levels and the repair of platinum-DNA adducts. Thus, optimization for the drug administration schedule is important when aiming at therapeutic synergy and circumvention of acquired CDDP resistance. © 1996 Wiley-Liss, Inc.     

Reversal of cisplatin resistance by the 1,4-benzothiazepine derivative, JTV-519.

The 1,4-benzothiazepine derivative JTV-519 is a new type of calcium ion channel modulator. We examined the modulatory effect of JTV-519 on the antitumor activity of several platinum compounds (cisplatin, carboplatin, and nedaplatin) in a human cancer cell line resistant to cisplatin (PC-14 / CDDP) in vitro. PC-14 / CDDP cells showed 8-fold resistance to cisplatin compared with the parental PC-14 cells as determined by dye formation [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, MTT] assay. In PC-14 / CDDP, but not PC-14 cells, augmentation of cytotoxicity was observed when a nontoxic concentration (10 mM) of JTV-519 was combined with the platinum compounds. Increased intracellular cisplatin accumulation was observed in PC-14 / CDDP cells in the presence of JTV-519 as measured by atomic absorption assay. Therefore, increased cisplatin accumulation was considered to be a possible mechanism underlying the reversing effect of JTV-519 on cisplatin resistance. These results suggest that JTV-519 is a potent agent reversing cisplatin resistance.     

Altered Expression of γ-Glutamylcysteine Synthetase, Metallothionein and Topoisomerase I or II during Acquisition of Drug Resistance to Cisplatin in Human Ovarian Cancer Cells

This study was designed to elucidate the mechanisms of cisplatin (CDDP) resistance using two human ovarian cancer cell lines, KF and TYK, and two CDDP-resistant lines, KFr and TYK/R, derived from the former lines. KFr and TYK/R showed about 3-fold higher resistance to the cytotoxic effects of CDDP than their parental lines. They also showed a significant increase in sensitivity to not only etoposide, but also (+)-(4S)-4, ll-diethyl-4-hydroxy-9-[(4-piperidino-piperidino)carbonyloxy]-l H -pyrano[3',4':6,7]inodolizino[l,2- b ]quinoline-3,14(4 H , 12 H )-dione hydrochloride trihydrate (CPT-11). Cellular CDDP accumulation levels in KFr and TYK/R were decreased from those of the parental cells. By contrast, the cellular glutathione (GSH) content in KFr cells was 1.7-fold higher than that in KF, whereas TYK/R cells had a 40% lower content than TYK cells. Cellular mRNA levels of drug-resistance-related genes, such as DNA topoisomerase (topo) I and topo II, glutathione S-transferase-π (GST-π;), γ-glutamylcysteine synthetase (.γ -GCS ), and metallothionein ( hMT ) genes, were compared between drug-sensitive KF or TYK and KFr or TYK/R. KFr cells had 8.5- and 24.7-fold higher mRNA levels of γ-GCS and topo II genes than KF cells while KFr had only a slight increase in GST-π mRNA level as compared with KF. By contrast, TYK/R cells had 2.9- and 1.7-fold higher hMT and topo I mRNA levels than TYK cells. Acquisition of CDDP resistance in human ovarian cancer cells thus appeared to be related mainly to expression of γ -GCS, topo II and hMT genes, and partly to that of topo I and GST-π genes, in addition to a decrease in CDDP accumulation     

Partial characterization of a Cisplatin-resistant subline of murine rif-1 tumor-cells

We have developed a drug-resistant cell line (RIF/Ptr1) (R) from the murine radiation-induced fibrosarcoma (RIF-1) also designated Pts or (S). This subline has been characterized previously by an increased resistance to cisplatin (cis-diamminedichloroplatinum(II) or CDDP), lowered intracellular CDDP concentrations, and elevated intracellular glutathione (GSH) levels (1.4-2.5-fold) but unaltered formation of CDDP-DNA interstrand cross-links. In this work, we have shown that RIF/Ptr1 cells were also resistant to carmustine (BCNU) and X-irradiation. Neither cell line had P-glycoprotein 170. The intrastrand CDDP-DNA adduct level was proportional to the concentration of intracellular CDDP. The oxygen consumption, ATP level, and glycolysis were similar in both cell lines. The cisplatin influx and efflux showed that the RIF/Ptr1 cells had lower drug influx and higher drug efflux compared to RIF-1. We conclude that the major difference between the cisplatin sensitive and cisplatin-resistant cells in this model is the regulation of cisplatin transport probably at the cell membrane level suggesting that a membrane active transport system other than P-glycoprotein 170 is involved. Whether glutathione is linked to the putative membrane transporter needs further investigation.     

Overcoming tnf-alpha and cddp resistance of a human ovarian-cancer cell-line (c30) by treatment with buthionine sulfoximine in combination with tnf-alpha and or cddp

Previous studies have demonstrated that glutathione (GSH) plays an important role in a wide range of cellular functions including protection, detoxification, transport and metabolism. GSH has been implicated in tumor cell resistance to drugs and/or cytotoxic factors. Buthionine sulfoximine (BSO), a specific inhibitor of gamma-glutamylcysteine synthetase, depletes intracellular GSH and thus could reverse resistance. The present study investigated the effect of BSO used in combination with tumor necrosis factor-alpha (TNF-alpha) or cisdiamminedichloroplatinum (II) (CDDP) on cytotoxicity of a TNF-alpha and CDDP resistant human ovarian cancer cell line (C30). Cytotoxicity was monitored by the MTT assay. Treatment of C30 cells with BSO and CDDP or BSO and TNF-alpha resulted in overcoming resistance and a synergistic cytotoxic effect was obtained. Pretreatment of the tumor cells by either agent for 4 h and wash and followed by the addition of the second agent for 20 h resulted in the same cytotoxicity as observed in the presence of the two agents. Furthermore, combination treatment with BSO, CDDP and TNF-alpha further augmented the synergistic cytotoxic activity achieved by two agents against C30 cells. The protective effect of GSH was shown for TNF-alpha but not for CDDP as treatment of C30 cells with TNF-alpha in combination with GSH or N-acetyl-cysteine (NAC) reduced the cytotoxic effect of TNF-alpha. One mechanism of resistance to TNF-alpha in tumor cells is through the induction of TNF-alpha mRNA and/or protein. The C30 cells did not constitutively express TNF-alpha mRNA, however, treatment of C30 cells with TNF-alpha upregulated the expression of TNF-alpha mRNA. When BSO was used in combination with TNF-alpha, the level of TNF-alpha mRNA induced by TNF-alpha was markedly reduced. Further, incubation of C30 cells with TNF-alpha in conjunction with GSH or NAC also downregulated the expression of TNF-alpha mRNA induced by TNF-alpha. These findings demonstrate that treatment with BSO in combination with TNF-alpha or CDDP can overcome the resistance of C30 tumor cells to TNF-alpha and CDDP. The depletion of intracellular GSH and downregulation of TNF-alpha mRNA by BSO may play a role in the enhanced cytotoxicity seen with the combination of BSO and TNF-alpha. The synergistic effect obtained with a CDDP selected resistant ovarian cancer cell line suggests that treatment with BSO in conjunction with either TNF-alpha or CDDP, or TNF-alpha and CDDP may have a clinical application in the therapy of TNF-alpha and/or CDDP resistant ovarian tumors'     

Decreased accumulation as a mechanism of resistance to cis-diamminedichloroplatinum(II) in human non-small cell lung cancer cell lines: relation to DNA damage and repair

The mechanism of resistance to cis-diamminedichloroplatinum(II) (CDDP) is still controversial, although several kinds of processes have been proposed. For elucidation of the mechanism of CDDP resistance in CDDP-resistant human non-small cell lung cancer cells (PC-9/0.5, 7.1-fold resistant), we examined the formation of DNA interstrand cross-links (ICL), one kind of DNA damage induced by CDDP, its repair, and intracellular accumulation of CDDP. We measured the frequency of CDDP-induced ICL by means of the alkaline elution technique and the amount of intracellular platinum for intracellular accumulation of CDDP by means of atomic absorption spectrophotometry in PC-9 (parental cell) and PC-9/0.5 cells. Formation of ICL in PC-9 cells exposed to 5 micrograms of CDDP per ml for 6 h was 5.85 times that in PC-9/0.5 cells. On the other hand, the ability to repair CDDP-induced ICL was identical in both cell lines. Intracellular accumulation studies revealed that PC-9 retained 5.07 times as much platinum as that in PC-9/0.5 after 3-h exposure to CDDP. It was conjectured that the decrease in the intracellular accumulation of CDDP might be the main cause of CDDP resistance in PC-9 cells, since the decreased accumulation was paralleled by the decreased level of ICL.     

BSO增强MRP过表达肺癌细胞对顺铂敏感性的作用机制研究

目的：评价使用丁胱亚磺酰亚胺(BSO)克服肿瘤细胞由于高表达MRP而引起对顺铂耐药的可行性，并初步探讨其增敏的作用机制。方法：用基因转染的方法成功建立了一株mrp基因高表达的肺癌细胞株(SPC-A-1／MRP)的基础上，检测BSO作用前后转染细胞对顺铂敏感性的差异，从酶活性测定和转录水平观察了上述过程中谷胱甘肽解毒系统的变化。结果：实验表明同对照(转染不含目的基因的空载质粒)的SPC-A-1／MRP(一)细胞相比，SPC-A-1／MRP细胞对顺铂出现了明显的耐受，BSO可以有效增强MRP高表达的细胞对顺铂的敏感性。BSO通过显著抑制由顺铂引起的肿瘤细胞内GSH解毒系统的活化和MRP蛋白含量升高，有效的克服了肿瘤细胞接触顺铂后过表达MRP而引起的化疗耐受。结论：高表达MRP可以引起肿瘤细胞对顺铂的耐受，BSO针对MRP介导的顺铂耐药有很好的增敏效果。     

Inhibition of Colony Formation of Drug-resistant Human Tumor Cell Lines by Combinations of Interleukin-2-activated Killer Cells and Antitumor Drugs

The cytotoxicity of interleukin-2-activated killer (LAK) cells with or without anticancer drugs against cell lines with acquired drug resistance was evaluated in vitro by colony assay. Human non-small cell lung cancer cell lines, PC-9 and PC-14, human leukemia cell line, K-562, and their sublines resistant to cisplatin (CDDP), PC-9/CDDP and PC-14/CDDP, and to adriamycin (ADM), K-562/ADM, were used as target cells. PC-9/CDDP demonstrated a marked increase in susceptibility to killing by both peripheral blood lymphocytes (PBL) and LAK cells, as compared to the parental cell line, PC-9. The cytotoxicity of PBL and LAK cells against PC-14/CDDP and K-562/ADM was similar to that against their parental cell lines. Moreover, the combination of LAK and CDDP had a synergistic effect on PC-14 and PC-14/CDDP.     

Inhibition of colony formation of drug-resistant human tumor cell lines by combinations of interleukin-2-activated killer cells and antitumor drugs

The cytotoxicity of interleukin-2-activated killer (LAK) cells with or without anticancer drugs against cell lines with acquired drug resistance was evaluated in vitro by colony assay. Human non-small cell lung cancer cell lines, PC-9 and PC-14, human leukemia cell line, K-562, and their sublines resistant to cisplatin (CDDP), PC-9/CDDP and PC-14/CDDP, and to adriamycin (ADM), K-562/ADM, were used as target cells. PC-9/CDDP demonstrated a marked increase in susceptibility to killing by both peripheral blood lymphocytes (PBL) and LAK cells, as compared to the parental cell line, PC-9. The cytotoxicity of PBL and LAK cells against PC-14/CDDP and K-562/ADM was similar to that against their parental cell lines. Moreover, the combination of LAK and CDDP had a synergistic effect on PC-14 and PC-14/CDDP.     

Establishment and characterization of cisplatin-resistant sublines of human lung cancer cell lines

Human lung cancer sublines resistant to cisplatin (CDDP) have been developed by continuously exposing cells to gradually increasing doses of CDDP and use of the limiting dilution technique. The cell lines used were PC-7, PC-9 and PC-14 (pulmonary adenocarcinoma) and H69 and N231 (small-cell lung cancer). The resistant phenotype of the resistant sublines was stable for more than 2 months in the absence of drug. PC-7/1.2 (i.e., PC-7 cells growing stably in medium containing 1.2 micrograms/ml of CDDP), PC-9/0.5, PC-14/1.5, H69/0.4, and N231/0.2 have been developed, which are 22.9, 7.1, 3.1, 25.6, and 8.4 times more resistant to CDDP than the respective parent cell line in terms of IC50 in the soft agar colony assay with continuous drug exposure. Cloning efficiency decreased significantly in N231/0.2. The doubling times increased significantly in most of the resistant sublines. Cellular DNA contents increased in all resistant sublines, but statistical significance was observed only in H69/0.4 (p less than 0.05). Cells of the resistant sublines of PC-7, PC-9, PC-14 and H69 were larger than cells of the parent lines, but the differences were not significant. The growth morphologies of all resistant sublines in the drug-free medium were similar to those of parent cell lines. All resistant sublines tested were significantly cross-resistant to carboplatin. The patterns of cross-resistance, cross-sensitivity and collateral sensitivity to adriamycin, mitomycin-C, 5-fluorouracil, vindesine, etoposide, aclacinomycin and vincristine were different in each resistant subline. Verapamil (3.3 micrograms/ml) showed little modifying effect on CDDP resistance in 5 CDDP-resistant sublines tested except N231/0.2 (Modification Index: 0.49). Cyclosporin A (5.0 micrograms/ml) modified CDDP resistance in CDDP-resistant small-cell lung cancer sublines (H69/0.4 and N231/0.2) (Modification Index: 0.45 and 0.07, respectively), while in CDDP-resistant NSCLC sublines (PC-7/1.0 and PC-9/0.5), cyclosporin A reduced the sensitivity to CDDP.     

Characterization of non-small-cell lung cancer cell lines established before and after chemotherapy

We established several in vitro drug-resistant cell lines after continuous, long-term exposure of each drug to elucidate mechanisms of drug resistance. Whether drug resistance in these in vitro resistant cell lines reflects clinical drug resistance still remains unanswered. In this study, a pair of lung cancer cell lines was established from one patient with squamous cell carcinoma of the lung, with one line being established before and one line after combination chemotherapy (cisplatin/ifosfamide/vindesine). Combination chemotherapy selected resistant EBC-2/R cells, which showed cross-resistance to 4-hydroxyifosfamide (3.2-fold), cisplatin (2.3-fold), and methotrexate (3.7-fold) and collateral sensitivity to vindesine (0.77-fold) compared with parent EBC-2 cells. EBC-2/R cells showed decrease in intracellular accumulation of cisplatin, increase in intracellular concentration of glutathione (GSH), and overexpression of multidrug resistance-associated protein (MRP) 3 when compared with EBC-2 cells. A single cycle of chemotherapy was not sufficient to select other mechanisms of drug resistance, such as multidrug resistance-1/P-glycoprotein, MRPs 1, 2, 4, and 5, lung resistance-related protein, metallothionein IIa, glutathione S-transferase pi, gamma-glutamylcysteine synthetase (light and heavy chain), and excision repair cross complementing 1. Sequentially we established two cell lines, which cell lines showed the differences of the cisplatin resistance, expression level of MRP3, intracellular GSH level and intracellular accumulation of cisplatin. A pair of cell lines will be useful to elucidate resistant mechanisms of cisplatin in heterogeneous lung cancer cells.     

Enhancement of Cisplatin Sensitivity in High Mobility Group 2 cDNA-transfected Human Lung Cancer Cells

To elucidate the role of high mobility group 2 protein (HMG2) in cis -diamminedichloroplatinum (II) (cisplatin, CDDP) sensitivity, we constructed a human HMG2 -transfected human non-small cell lung cancer cell line, PC-14/HMG2. The HMG2 mRNA expression level was approximately twice those of parental PC-14 and mock-transfected PC-14/CMV. Gel mobility shift assay revealed a CDDP-treated DNA-protein complex in the nuclear extract of PC-14/HMG2, which was not found in the extracts of PC-14 and PC-14/CMV. This complex formation was subject to competition by CDDP-treated non-specific salmon sperm DNA, indicating that ectopic HMG2 recognizes CDDP-damaged DNA. PC-14/HMG2 showed more than 3-fold higher sensitivity to CDDP than PC-14 and PC-14/CMV. The intracellular platinum content of PC-14/HMG2 after exposure to 300 μM CDDP was 1.1 and 1.5 times that of PC-14 and PC-14/CMV, respectively. Cellular glutathione levels were not different in these cell lines. Repair of DNA interstrand cross-links determined by alkaline elution assay was decreased in PC-14/HMG2. These results suggest that HMG2 may enhance the CDDP sensitivity of cells by inhibiting repair of the DNA lesion induced by CDDP.     

Enhancement of cisplatin sensitivity in high mobility group 2 cDNA-transfected human lung cancer cells.

To elucidate the role of high mobility group 2 protein (HMG2) in cis-diamminedichloroplatinum (II) (cisplatin, CDDP) sensitivity, we constructed a human HMG2-transfected human non-small cell lung cancer cell line, PC-14/HMG2. The HMG2 mRNA expression level was approximately twice those of parental PC-14 and mock-transfected PC-14/CMV. Gel mobility shift assay revealed a CDDP-treated DNA-protein complex in the nuclear extract of PC-14/HMG2, which was not found in the extracts of PC-14 and PC-14/CMV. This complex formation was subject to competition by CDDP-treated non-specific salmon sperm DNA, indicating that ectopic HMG2 recognizes CDDP-damaged DNA. PC-14/HMG2 showed more than 3-fold higher sensitivity to CDDP than PC-14 and PC-14/CMV. The intracellular platinum content of PC-14/HMG2 after exposure to 300 microM CDDP was 1.1 and 1.5 times that of PC-14 and PC-14/CMV, respectively. Cellular glutathione levels were not different in these cell lines. Repair of DNA interstrand cross-links determined by alkaline elution assay was decreased in PC-14/HMG2. These results suggest that HMG2 may enhance the CDDP sensitivity of cells by inhibiting repair of the DNA lesion induced by CDDP.     

Docetaxel enhances the cytotoxicity of cisplatin to gastric cancer cells by modification of intracellular platinum metabolism

We have examined the combined anticancer effects of docetaxel (DOC) and cisplatin (CDDP) in vitro using the gastric cancer cell lines MKN-45, MKN-74, and TMK-1. Treatment of the cell lines with 30 microg/ml of DOC for 24 h followed by incubation with 3 or 10 microg/ml of CDDP for 24 h showed a clear synergistic effect. Sequence dependency of the agents was observed in these cell lines: DOC followed by CDDP (DC) showed a stronger antitumor effect than CDDP followed by DOC (CD) in all cell lines. To clarify the mechanism of action of the DC combination, total intracellular platinum (Pt) levels were evaluated after treatment with CDDP alone or combined with DC. For the MKN-45 and -74 cell lines, cells treated with DOC (10 microg/ml for 12 h) and then CDDP showed significantly increased intracellular Pt accumulation compared to cells treated with CDDP alone. We also investigated alterations in intracellular glutathione (GSH) concentration in response to DOC and CDDP. MKN-45 and -74 cells pretreated with DOC (10 microg/ml for 12 h) showed significantly increased intracellular GSH levels compared to cells administered CDDP only. To explain these findings, messenger RNA (mRNA) levels for multidrug resistance-associated protein-1 (MRP-1), the ATP-dependent pump for Pt-GSH complexes, were quantified in CDDP-treated MKN-45 cells with and without DOC pretreatment. While CDDP administration increased MRP-1 mRNA expression in MKN-45 cells, MRP-1 was not up-regulated after CDDP administration in DOC pretreated MKN-45 cells. Our results suggested that the enhanced CDDP toxicity due to DOC pretreatment may be related to the accumulation of intracellular Pt-GSH complexes, because DOC appears to suppress the MRP-1 up-regulation induced by CDDP exposure in gastric cancer cells.     

沉默G6PD对卵巢癌细胞顺铂敏感性的影响及其作用机制

目的 探讨葡萄糖-6-磷酸脱氢酶（glucose-6-phosphate dehydrogenase，G6PD）在卵巢癌细胞顺铂耐药中的作用及其潜在的机制。方法 通过低浓度加量持续诱导法构建卵巢癌顺铂耐药细胞株A2780/CDDP，采用Label-free定量蛋白质组学法分析A2780和A2780/CDDP细胞差异蛋白G6PD，Western blot和RT-qPCR检测G6PD表达情况。通过siRNA技术将siRNA-G6PD及其阴性对照（siRNA-NC）转染至A2780/CDDP细胞，然后采用Western blot验证G6PD基因沉默效果，MTT法检测细胞增殖情况，流式细胞术检测细胞凋亡情况，流式细胞仪和酶标仪检测铁死亡相关物质活性氧（ROS）、丙二醛（MDA）、还原型谷胱甘肽（GSH）和脂质过氧化物的表达水平。结果 与A2780细胞相比，A2780/CDDP细胞中有95个上调蛋白和102个下调蛋白，其中上调蛋白中以G6PD表达差异最为显著；这些蛋白大多富集在代谢通路，且其功能主要与细胞氧化应激反应、核糖磷酸代谢途径相关。与A2780细胞相比，A2780/CDDP细胞中G6PD mRNA和蛋白表达水平均显著升高（均P<0.05），铁死亡相关物质ROS、MDA和脂质过氧化物水平均降低（均P<0.05），而GSH水平升高（P=0.001）。沉默G6PD后的A2780/CDDP细胞中顺铂的IC₅₀值降低（P=0.012），细胞凋亡率升高（P=0.006），铁死亡相关物质ROS、MDA和脂质过氧化水平均升高（均P<0.05），而GSH水平降低（P=0.007）。结论 沉默G6PD可能通过诱导卵巢癌顺铂耐药细胞A2780/CDDP中的铁死亡水平而增强顺铂敏感性。     

Modulation of cell growth and cisplatin sensitivity by membrane gamma-glutamyltransferase in melanoma cells

The plasma membrane enzyme gamma-glutamyltransferase (GGT) is regarded as critical for the maintenance of intracellular levels of glutathione (GSH). GGT expression has been implicated in drug resistance through elevation of intracellular GSH. The dependence of intracellular GSH on GGT expression was not conclusively ascertained. The present study was designed to investigate the role of GGT and of intracellular GSH levels in modulating proliferation and sensitivity to cisplatin of melanoma cells. GGT transfection resulted in increased growth, both in vitro and in tumour xenografts. In addition, GGT-transfected cells exhibited reduced sensitivity to cisplatin associated with lower DNA platination. A decrease in intracellular GSH levels, rather than an increase, was observed in GGT-transfected cells; moreover, in cysteine-deficient conditions, the expression of GGT did not provide transfected cells with the ability of utilising extracellular GSH. In conclusion, these results indicate that GGT activity confers a growth advantage unrelated with intracellular glutathione supply, and are consistent with the interpretation that cisplatin resistance is the consequence of modifications of cellular pharmacokinetics as a result of extracellular drug inactivation by thiol metabolites originated by GGT-mediated GSH cleavage.