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1.
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The MDR1 gene encoded transmembrane ABC-transporter MDR1/P-glycoprotein can mediate the phenotype of multidrug resistance (MDR), a major obstacle in the clinical management of cancer patients. It was hypothesized that YB-1 is a fundamental regulatory factor of the MDR1 gene in tumor cells and can therewith enhance drug resistance. To analyze the potential impact of YB-1 in MDR cancer cells, two specific anti-YB-1 small interfering RNAs (siRNAs) were designed for transient triggering the gene-silencing RNA interference (RNAi) pathway in the MDR cell lines EPG85-257RDB and EPP85-181RDB as well as in their drug-sensitive counterparts EPG85-257P and EPP85-181P. Since both siRNAs showed biological activity, for stable inhibition of YB-1 corresponding tetracycline-inducible short hairpin RNA (shRNA)-encoding expression vectors were designed. By treatment of the cancer cells with these constructs, the expression of the targeted YB-1 encoding mRNA and protein was completely inhibited following tetracycline exposure. These gene-silencing effects were not accompanied by modulation of the MDR1 expression or by reversal of the drug-resistant phenotype. In conclusion, the data demonstrate the utility of the analyzed RNAs as powerful laboratory tools and indicate that YB-1 is not involved in the regulation of the MDR1 gene or the development of the drug-resistant phenotype in MDR cancer cells.  相似文献   

3.
Herein, we investigated efflux pumps-mediated talazoparib-resistance in the treatment of triple-negative breast cancer (TNBC). Furthermore, we produced a novel talazoparib-solid lipid nanoparticles (SLNs) and then explored in vitro therapeutic efficacy of talazoparib-SLNs to overcome talazoparib-resistance in TNBC cells. Talazoparib-SLNs formulation was produced and then characterized. Calcein and Rho-123 were used to analyze the functional activity of drug efflux pumps in these cells. Additionally, RT-PCR, western blot and immunofluorescence analysis were used to detect the messenger RNA, and protein expression level, and cellular localization of the multidrug resistance (MDR1), breast cancer resistance protein (BCRP), and MRP1. We found that talazoparib efflux was mediated by BCRP and MRP1 pumps in TNBC cells. Talazoparib-SLNs could significantly enhance therapeutic efficacy of talazoparib. Furthermore, talazoparib-SLNs were more effective in the suppression of MDR1, BCRP, and MRP1 gene and protein expression levels than talazoparib. Consequently, this study suggests that talazoparib-SLNs formulation represents a promising therapeutic carrier to reverse MDR-mediated resistance in TNBC.  相似文献   

4.
Multidrug resistance (MDR) transporters have been termed the Phase III detoxification system because they not only export endogenous metabolites but provide protection from xenobiotic insult by actively secreting foreign compounds and their metabolites from tissues. However, MDR overexpression in tumors can lead to drug resistance, a major obstacle in the treatment of many cancers, including lung cancer. Isothiocyanates from cruciferous vegetables, such as sulforaphane (SF) and erucin (ER), are known to enhance the expression of Phase II detoxification enzymes. Here we evaluated the ability of SF and ER to modulate MDR mRNA and protein expressions, as well as transporter activity. The expression of P-glycoprotein (P-gp), multidrug resistance protein 1 (MRP1) and multidrug resistance protein 2 (MRP2) in liver (HepG2), colon (Caco-2) and lung (A549) cancer cells treated with ER or SF was analyzed by Western blotting. Neither SF nor ER affected P-gp expression in any of the cell lines tested. Both SF and ER increased the protein levels of MRP1 and MRP2 in HepG2 cells and of MRP2 in Caco-2 cells in a dose-dependent manner. In A549 lung cancer cells, SF increased MRP1 and MRP2 mRNA and protein levels; ER caused a similar yet smaller increase in MRP1 and MRP2 mRNA. In addition, SF and ER increased MRP1-dependent efflux of 5-carboxyfluorescein diacetate in A549 cells, although again the effect of SF was substantially greater than that of ER. The implication of these findings is that dietary components that modulate detoxification systems should be studied carefully before being recommended for use during chemotherapy, as these compounds may have additional influences on the disposition of chemotherapeutic drugs.  相似文献   

5.
Olson DP  Taylor BJ  Ivy SP 《Cytometry》2001,46(2):105-113
Resistance to anticancer drugs has been attributed to an array of cellular changes. The multidrug resistance-related protein (MRP1) is an efflux pump whose overexpression confers resistance to several classes of drugs, such as the anthracyclines, epipodophyllotoxins, and vinca alkaloids. These drugs are mainstays in cancer therapy. MRP1 overexpression is hypothesized to be a causative agent of clinical treatment failure. Consistently accurate methods for detecting this protein are necessary to further understand its biology and delineate its possible clinical relevance. Flow cytometric analysis of multidrug resistance (MDR) is a valuable method to evaluate both antigen expression and function. Using flow cytometry, we assayed MRP1 functional activity in pediatric leukemic blasts and an array of MDR+ and WT cell lines. We conclude that calcein AM, when used in a retention assay with MRP1-specific modulators, is able to reliably detect MRP functional activity. 2'-7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF AM) transport is not indicative of MRP1 overexpression. .  相似文献   

6.
Genes of multidrug resistance in haematological malignancies   总被引:1,自引:1,他引:1  
Since the early 1970s, multiple drug resistance has been known to exist in cancer cells and is thought to be attributable to a membrane-bound, energy-dependent pump protein (P-glycoprotein [P-gp]) capable of extruding various related and unrelated chemotherapeutic drugs. The development of refractory disease in haematological malignancies is frequently associated with the expression of one or several multidrug resistance (MDR) genes. MDR1, multidrug resistance-associated protein (MRP) and lung-resistance protein (LRP) have been identified as important adverse prognostic factors. Recently it has become possible to reverse clinical MDR by blocking P-gp-mediated drug efflux. The potential relevance of these reversal agents of MDR as well as the potential new approaches to treat the refractory disease are discussed in this article. In addition, an array of different molecules and mechanisms by which resistant cells can escape the cytotoxic effect of anticancer drugs has now been identified. These molecules and mechanisms include apoptosis-related proteins and drug inactivation enzymes. Resistance to chemotherapy is believed to cause treatment failure in more than 50% patients. Clearly, if drug resistance could be overcome, the impact on survival would be highly significant. This review focuses on molecular mechanism of drug resistance in haematological malignancies with emphasis on molecules involved in MDR. In addition, it brings the survey of methods involved in determination of MDR, in particular P-gp/MDR1, MRP and LRP.  相似文献   

7.
Multidrug resistance resulting from expression of an energy-dependent drug efflux pump encoded by the human MDR1 gene is a major impediment to effective cancer therapy. Pharmacologic intervention aimed at inhibiting this multidrug transporter should improve existing chemotherapy of human cancer, but drug development has been delayed by the difficulty and expense of developing valid animal models. Using recombinant DNA technology, a transgenic mouse has been engineered whose bone marrow is protected from the toxic effects of chemotherapy by expression of the MDR1 gene. This animal system allows the rapid screening of drugs which inhibit the multidrug transporter and heralds a new era of using transgenic animals for pharmacologic screening.  相似文献   

8.
The ability of cells to acquire resistance to multiple pharmaceuticals, namely multidrug resistance (MDR), is often mediated by the over-expression of efflux transporters of the ATP-binding cassette (ABC) superfamily; for example P-glycoprotein (P-gp or MDR1), breast cancer resistance protein (BCRP or ABCG2), and multidrug resistance-associated protein MRP1. ABCs pump drug molecules out of cells against a concentration gradient, reducing their intracellular concentration. The ability of polymeric amphiphiles to inhibit ABCs as well as the cellular pathways involved in the inhibition has been extensively investigated. This work investigated for the first time the effect of branched poly(ethylene oxide)-poly(propylene oxide) block copolymers (poloxamines) on the levels of mRNA encoding for MDR1, BCRP and MRP1, in a human hepatoma cell line (Huh7). Copolymers with a broad range of molecular weights and hydrophilic-lipophilic balances were assayed. Results confirmed the down-regulation of mdr1 and abcg2 genes. Conversely, the mrp1 gene was not affected. These findings further support the versatility of these temperature- and pH-responsive copolymers to overcome drug resistance in cancer and infectious diseases.  相似文献   

9.
Organochlorine (OC) pesticides constitute a major class of persistent and toxic organic pollutants, known to modulate drug‐detoxifying enzymes. In the present study, OCs were demonstrated to also alter the activity and expression of human hepatic drug transporters. Activity of the sinusoidal influx transporter OCT1 (organic cation transporter 1) was thus inhibited by endosulfan, chlordane, heptachlor, lindane, and dieldrine, but not by dichlorodiphenyltrichloroethane isomers, whereas those of the canalicular efflux pumps MRP2 (multidrug resistance‐associated protein 2) and BCRP (breast cancer resistance protein) were blocked by endosulfan, chlordane, heptachlor, and chlordecone; this latter OC additionally inhibited the multidrug resistance gene 1 (MDR1)/P‐glycoprotein (P‐gp) activity. OCs, except endosulfan, were next found to induce MDR1/P‐gp and MRP2 mRNA expressions in hepatoma HepaRG cells; some of them also upregulated BCRP. By contrast, expression of sinusoidal transporters was not impaired (organic anion‐transporting polypeptide (OATP) 1B1 and OATP2B1) or was downregulated (sodium taurocholate co‐transporting polypeptide (NTCP) and OCT1). Such regulations of drug transporter activity and expression, depending on the respective nature of OCs and transporters, may contribute to the toxicity of OC pesticides.  相似文献   

10.
Abstract

A major problem in the chemotherapy of solid tumors and hematologic malignancies is the intrinsic as well as acquired cross resistance to multiple chemotherapeutic agents. Recently, this type of multidrug resistance has been related to a gene, MDR1, and its gene product, p-glycoprotein, which functions as the efflux pump, prevents accumulation of drugs and alters their cytotoxicity. Many drug-resistant human tumors express the MDR1 gene and MDR1 RNA levels are elevated in many cancers that have not responded to chemotherapy. The same persistent observation has been made in recurrent tumors who have responded initially to chemotherapy.

Doxorubicin is one of the most important anticancer agent having significant single agent activity in a variety of cancer types and is now the cornerstone of some widely used combination regimens. Despite the clinical effectiveness of the drug, doxorubicin resistance that arises in malignant cells following repeated courses of treatment is the major problem in the clinical management of neoplastic diseases. Recently, extensive studies have demonstrated that liposome encapsulated doxorubicin effectively modulates the multidrug resistance phenotype in cancer cells by altering the function of p-glycoprotein. This modulation of MDR phenotype by liposomes has been demonstrated in vitro in human breast cancer cells, ovarian cancer cells, human promyelocytic leukemia cells and in human colon cancer cells and in vivo in transgenic mice transfected with a functional MDR1 gene. It appears liposomes can play an effective role as a new modality of treatment for human cancers which have become refractory to chemotherapy. An exciting area of research which soon will emerge will exploit the different binding sites on p-glycoprotein by using combination of liposomes with other pharmacological modulators of MDR to impart maximal overcoming of multidrug resistance in cancer patients.  相似文献   

11.
肿瘤细胞对化疗药物的抗性是癌症有效化疗的主要障碍。人类细胞中多药抗性基因(MDR1)编码一种p-糖蛋白,后者功能是能量依赖的跨膜药物外输泵,可降低细胞毒药物在胞内的积累。定量分析MDR1表达水平可说明病人抗药能力的高低。本文应用PCR技术建立了灵敏度高、专一性好、可定量检测临床标本中MDR1表达水平的方法。对周血标本的初步检测表明:白血病化疗效果与MDR1表达水平的高低有关。  相似文献   

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13.
gamma-Glutamylcysteine synthetase (gamma-GCS) is a key enzyme in glutathione (GSH) synthesis, and is thought to play a significant role in intracellular detoxification, especially of anticancer drugs. Increased levels of GSH are commonly found in the drug-resistant human cancer cells. We designed a hammerhead ribozyme against gamma-GCS mRNA (anti-gamma-GCS Rz), which specifically down-regulated gamma-GCS gene expression in the HCT-8 human colon cancer cell line. The aim of this study was to reverse the cisplatin and multidrug resistance for anticancer drugs. The cisplatin-resistant HCT-8 cells (HCT-8DDP cells) overexpressed MRP and MDR1 genes, and showed resistance to not only cisplatin (CDDP), but also doxorubicin (DOX) and etoposide (VP-16). We transfected a vector expressing anti-gamma-GCS Rz into the HCT-8DDP cells (HCT-8DDP/Rz). The anti-gamma-GCS Rz significantly suppressed MRP and MDR, and altered anticancer drug resistance. The HCT-8DDP/Rz cells were more sensitive to CDDP, DOX and VP-16 by 1.8-, 4.9-, and 1.5-fold, respectively, compared to HCT-8DDP cells. The anti-gamma-GCS Rz significantly down-regulated gamma-GCS gene expression as well as MRP/MDR1 expression, and reversed resistance to CDDP, DOX and VP-16. These results suggested that gamma-GCS plays an important role in both cisplatin and multidrug resistance in human cancer cells.  相似文献   

14.
Synthesized series of cage dimeric 1,4-dihydropyridines have been systematically evaluated as MDR modulators in in vitro assays to investigate structure-dependent selectivity properties of inhibiting most cancer-relevant efflux pump proteins. Structure–activity relationships of each P-glycoprotein (P-gp) and multidrug resistance associated protein (MRP) 1 and MRP2 inhibition are discussed and prove to be mainly determined by certain aromatic substitution patterns. The characterization of breast cancer resistance protein (BCRP) inhibition results in the discovery of benzyloxy substituted derivatives as selective P-gp inhibitors.  相似文献   

15.
The molecular basis of radiotherapy-related multidrug resistance (MDR) is still unclear. Here we report on a study investigating the effect of fractionated irradiation on expression of the MDR-associated proteins P-glycoprotein (P-gp), multidrug resistance-associated protein (MRP), and lung resistance-related protein (LRP), the respective mRNAs, and the functional consequences. Cells of six colon and five breast cancer cell lines were irradiated with a total dose of 27 Gy, five fractions of 1.8 Gy per week. The mRNA expression was measured by quantitative RT-PCR, protein levels and drug sensitivity to cisplatin, doxorubicin and bendamustine were assessed by flow cytometry. Breast cancer cell lines showed enhancement of the mRNAs encoding for P-gp, MRP1 and LRP in comparison to nonirradiated cells. No up-regulation of the three mRNA species was observed in the colon cancer cell lines. After irradiation, three breast cancer cell lines showed an up-regulation of LRP, one line an up-regulation of MRP1, and four lines a small up-regulation of P-gp. In the colon cancer cell lines, radiation induced significant enhancement of all three proteins. In comparison to controls, the irradiated cells lines showed a significant resistance to cisplatin, doxorubicin and bendamustine. This study confirms the prior reports of enhancement of P-gp and MRP1 after irradiation, which is accompanied by a multidrug resistance phenomenon, but in addition proposes a novel mechanism in the appearance of MDR after radiation-induced enhancement of LRP.  相似文献   

16.
This review describes the features of gene amplification associated with the selection of multidrug-resistant cell lines. Some of these lines carry multiple copies of the MDR1 gene that encodes P-glycoprotein, a broad specificity efflux pump. The MDR1 gene was initially identified as the common component of the amplicons found in multidrug-resistant cell lines selected with different drugs. Subsequent studies have established that increased MDR1 expression is sufficient for the multidrug-resistant phenotype. MDR1-containing amplicons may include a number of additional transcribed genes that do not appear to contribute to multidrug resistance. MDR1 amplification is associated with specific chromosomal changes and apparently non-random recombinational events. Increased expression of the MDR1 gene, however, does not necessarily require gene amplification. Although amplification of the MDR1 gene has not been found in clinical tumor samples, increased expression of this gene is commonly observed in different types of cancer and appears to be a significant marker of clinical drug resistance.  相似文献   

17.
18.
目的建立人结肠癌多药耐受性动物模型并初步探索其耐药机制。方法结合体内外诱导方法建立人结肠癌多药耐受性动物模型,利用VCR和CTX的肿瘤抑制实验评价其MDR特性;利用real-time PCR和West-ern blotting等方法分析其P-gp/MDR1和MRP1基因和蛋白的表达。结果肿瘤抑制实验结果显示,MDR和敏感型结肠癌模型的肿瘤生长速度差异不显著,MDR结肠癌动物模型对于VCR和CTX的耐药性均有较大程度的提高;表达分析结果显示,人结肠癌MDR动物模型的P-gp/MDR1表达水平有较大提高,而MRP1表达没有显著变化。结论人结肠癌多药耐受性动物模型具有较好的多药耐受性,其多药耐受性表型主要是由于P-gp/MDR1过量表达所导致。  相似文献   

19.
The multidrug resistance protein (MRP) is a drug efflux membrane pump conferring multidrug resistance to tumor cells. Clinical trials have been undertaken to improve the effectiveness of chemotherapy by adding an MRP inhibitor to the treatment regimen. This study attempted not only to determine novel resistance mechanisms in MRP-overexpressing AML cells (AML-2/DX100) by chronic exposure to doxorubicin in the presence of an MRP inhibitor probenecid but also to find out whether probenecid could increase MRP levels. AML-2/DXPBA cultured in the presence of probenecid (600 microM) and doxorubicin (100 ng/ml) showed a higher level of the multidrug resistance (MDR) phenotype when compared to AML-2/DX100. AML-2/DXPBA showed increased levels of MRP compared to those of AML-2/DX100. Probenecid increased the MRP levels without an increase in MRP mRNA in AML-2/WT in both a time- and dose-dependent manner. Of the MRP inhibitors including probenecid, ofloxacin, erythromycin, and rifampicin used in this study, only probenecid showed a marked chemosensitizing effect in AML-2/DX100 but not in HL-60/Adr, suggesting that the chemosensitizing effects of the MRP inhibitors vary according to the type of resistant cells. The maximum noncytotoxic concentrations of these MRP inhibitors increased the MRP levels to various degrees in both AML-2/WT and HL-60/WT. However, the chemosensitizing effects of the MRP inhibitors were not correlated with their MRP-increasing effects. Altogether, MRP inhibitors such as probenecid have been shown to function as a double-edged sword, indicating that they are not only an effective chemosensitizer of MRP-associated MDR tumor cells but also an MRP activator. Therefore caution should be taken whenever using MRP inhibitors to reverse MRP-mediated multidrug resistance in clinical cancer chemotherapy as well as when used to inhibit MRP expression in vitro.  相似文献   

20.
Lai KC  Kuo CL  Ho HC  Yang JS  Ma CY  Lu HF  Huang HY  Chueh FS  Yu CC  Chung JG 《Phytomedicine》2012,19(7):625-630
To elevate chemo-resistance of human cancer cells is a major obstacle in the treatment and management of malignant cancers. Diallyl sulfide (DAS), diallyl disulfide (DADS) and diallyl trisulfide (DATS) are presented in the Alliaceae family particularly in garlic. Although DAS, DADS and DATS have been shown to exhibit anticancer activities, there is little information on effects of these compounds on drug resistant genes in human colon cancer cells in vitro and in vivo. Herein, we are the first to show that DAS, DADS and DATS at 25 μM for 24-h and 48-h incubations promoted expression of drug resistant genes in colo 205 human colon cancer cells. In vitro experiments indicated that DATS promoted gene expression of multidrug resistant 1 (Mdr1) (p<0.05), and DAS and DADS promoted MRP3 gene expression and DATS alone stimulated gene expression of multidrug resistance-associated protein-1 (MRP1) (p<0.05) in colo 205 cells. In vivo studies demonstrated that DADS and DATS induced Mdr1 and MRP1 gene expression (p<0.05). DADS promoted MRP3 gene expression (p<0.05) as well as DADS and DATS increased MRP4 and MRP6 gene expression (p<0.05) in the colo 205 xenograft mice. Based on our in vitro and in vivo results, diallyl polysulfides (DAS, DADS and DATS) affected the gene expression of the multidrug resistance in colo 205 human colon cancer cells in vitro and in vivo.  相似文献   

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