Multidrug Resistance Gene 1 Gene Research Articles

Curcumin-loaded nanoparticles reversed radiotherapy-triggered enhancement of MDR1 expression of CNE-2 cells in nasopharyngeal carcinoma

This study explored the effect of nanoparticle-encapsulating curcumin on strongly expressed multidrug resistance gene 1 (MDR1) in a human low-differentiated nasopharyngeal carcinoma cell line (CNE-2). The curcumin/chitosan-deoxycholic acid nanoparticles were prepared, and cells received different treatments: radiotherapy, empty carrier, curcumin and curcumin-loaded nanoparticles, followed by analysis of cell survival using the clonogenic assay, apoptosis, MDR1 and miR-593 level. Cell survival fractions in the curcumin group and curcumin-loaded nanoparticles group were reduced significantly. Moreover, we observed a reduced cell survival fraction in the curcumin-loaded nanoparticles group (p < 0.05). Remarkably, higher apoptosis rates were observed in cells receiving curcumin or curcumin-loaded nanoparticles treatments compared with radiotherapy. Moreover, the curcumin-loaded nanoparticle treatment enhanced apoptosis (p<0.05). Furthermore, a decreased MDR1 level was denoted in curcumin group and curcumin-loaded nanoparticles group and a further reduced MDR1 expression in nanoparticles group (p < 0.05). A higher miR-593 expression was observed in the curcumin group and curcumin-loaded nanoparticles group with a relative higher level in nanoparticles group (p<0.05). MDR1 expression in inhibitor group was significantly strengthened (p<0.05). Curcumin that is encapsulated in nanoparticles exhibited a stronger radio sensitizing effect. Its combination with radiotherapy can effectively inhibit NPC tumor growth, and suppress MDR1 expression while enhancing miR-593. After retarding the miR-593, the MDR1 expression was intensified. The radio sensitizing effect of curcumin-loaded nanoparticles was regulated by miR-593 but not triggered by MDR1. The curcumin-loaded nanoparticles mediated enhanced expression of miR-593, which in turn inhibited the transcription and translation of MDR1 gene, thereby reducing the radio resistance of NPC and restraining the growth of NPC more effectively.

Impact of MDR1 and UGT Gene Polymorphisms on Sodium Valproate Plasma Concentration in Patients with Epilepsy.

This study aimed to identify the effects of multidrug resistance gene 1 (MDR1) and UGT gene polymorphisms on the plasma concentration of VPA in subjects with epilepsy and provide a reference for individualized medicine of patients with epilepsy. One hundred subjects with epilepsy who were treated with sustained release VPA monotherapy were enrolled. Sanger sequencing was used to detect the genotypes of MDR1_G1199A, MDR1_G2677T/A, UGT1A6_A 552C, T19G and UGT2B7_C161T. By adjusting the plasma concentrations of VPA with body weight and a total daily dose of VPA, the concentration-to-dose ratio of VPA (CDRV) was obtained. Data were analyzed using SPSS17.0. No mutation of MDR1_G1199A gene was detected. MDR1_G2677T/A site T allele frequency is 43.5%, A is 14%. The genetic frequencies of UGT1A6_A552C, T19G, and UGT2B7_C161T were 29.5%, 25.5%, and 36%, respectively. Significant differences in CDRV were observed between carriers of TT, TG, and GG genotypes in the UGT1A6_T19G polymorphism (p = 0.021, p < 0.05). The CDRV was significantly lower in patients carry UGT1A6_T19G GG genotype compared to TG ((3.40 ± 1.61) μg.kg/mL.mg) and TT ((4.33 ± 1.97) μg.kg/mL.mg) genotype. While the MDR1_G2677T/A, UGT1A6_A552C and UGT2B7_C161T gene polymorphisms had no effect on the plasma concentration of VPA (p > 0.05). The genetic polymorphisms of UGT1A6_T19G significantly affect the plasma concentration of VPA in patients with epilepsy and the mutation of this locus can decrease the blood concentration of VPA. The MDR1_G2677T/A, UGT1A6_A552C and UGT2B7_C161T gene polymorphisms did not affect the plasma VPA concentration in Han patients with epilepsy.

Compound matrine injection reduces morphine tolerance of the mice with lung cancer by inhibiting expression of multidrug resistance gene 1 and P-glycoprotein

Objective: To investigate the effect of compound matrine injection on morphine tolerance in mice with lung cancer in situ and the expressions of multidrug resistance gene 1 (MDR1) and P-glycoprotein (P-gp). Methods: A mouse model of lung cancer in situ and morphine tolerance mode was established. The mice were injected with gradient concentration of compound matrine. The pain thresholds under different conditions were measured by thermal radiation tail-flick method. The mRNA level of MDR1 was tested by reverse transcription polymerase chain reaction (RT-PCR) and the protein level of P-gp was detected by western blot. The DNA binding activity of cyclophosphoadenosine response element binding protein (CREB) to the promoter of MDR1 gene was detected by electrophoretic mobility shift assay (EMSA). Results: The maximum analgesic percentage (MPE) of the mice in the morphine group was (85.21±6.53)% on the 8th day, and decreased to (38.45±5.52)% and (28.14±4.52)% on the 10th and 12th day, respectively, which indicated the morphine tolerance of mice with lung cancer in situ.The MPE of the mice in the group treated with morphine and compound matrine injection (300 mg/kg) was (79.34±6.50)% on the 8th day, and decreased to (62.16±5.53)% and (40.20±4.50)% on the 10th and 12th day, respectively.The results of RT-PCR assay showed that the relative expression levels of MDR1 mRNA in the brain tissues of mice in the morphine group, saline group, morphine combined with compound matrine injection (300 mg/kg) group and compound matrine injection (200 mg/kg) group were 2.33±0.79, 1.04±0.38, 1.37±0.38, and 1.43±0.53, respectively. There were statistically significant differences between the morphine group and the normal saline group, the morphine group and the morphine combined with compound matrine injection (300 mg/kg) group (P<0.05). There was no significant difference between the normal saline group and the compound matrine injection (200 mg/kg) group (P=0.05). The results of western blot showed that the relative expression levels of P-gp protein in the brain tissue of mice in the morphine group, saline group, and morphine combined with compound matrine injection (300 mg/kg) group were 1.86±0.40, 1.00±0.23, and 1.27±0.27, respectively. The expression of P-gp protein in the morphine group was significantly higher than those of the normal saline group and the morphine combined with compound matrine injection (300 mg/kg) group (P<0.05). The DNA-binding activity of CREB in the saline group was (0.23±0.07) Pu, significantly lower than (0.89±0.23) Pu of morphine combined with naloxone group and (0.80±0.23) Pu of morphine group (P<0.05). While the CREB DNA binding activity of morphine combined with compound matrine injection (300 mg/kg) group was (0.79±0.21) Pu, implicated that compound matrine had marginal effect on the DNA-binding activity of CREB (P>0.05). Conclusion: Compound matrine injection can significantly improve morphine tolerance and drug resistance of lung cancer through inhibiting the upregulations of MDR1 and P-gp induced by morphine.

Association of MDR1 gene polymorphisms with refractory epilepsy in children

To assess the association of single nucleotide polymorphisms of multidrug resistance gene 1 (MDR1) with refractory epilepsy in children. Peripheral blood samples were collected from 200 children with epilepsy and 100 healthy controls. Genomic DNA was extracted and subjected to PCR amplification, agarose gel electrophoresis and target site sequencing. Genotypes of rs1922242, rs2235048, rs10808072, rs868755 and rs1202184 loci of the MDR1 gene were analyzed. No significant difference was found in genotypic distribution and allelic frequencies of the rs1922242, rs2235048, rs10808072 and rs868755 loci between the drug-resistant and drug-sensitive groups. For the rs1202184 locus, a significant difference in genotypic distribution was found (P=0.008). No significant difference was found in the frequencies of various haplotypes between the two groups. Genotypes of the rs1202184 locus of the MDR1 gene are associated with refractory epilepsy in children, for which the AA genotype plays a dominant role.

High Expression of Multidrug Resistance Gene-1 Can Aggravate Resistance to Methotrexate in Rheumatoid Arthritis Patients

Objective To explore the role of multidrug resistance gene-1(MDR1)gene in methotrexate(MTX)resistance in patients with rheumatoid arthritis(RA).Methods Fibroblast-like synoviocytes(FLS)from RA patients were infected with recombinant adenovirus Ad-EGFP-MDR1 in vitro to obtain MDR1 over-expressed RA FLS.The transcription level of MDR1 gene and the expression level of its coding product P-glycoprotein(P-gp) rotein were detected by real-time PCR and Western blot analysis.The efflux function was verified by rhodamine 123 efflux assay.The resistance to MTX was detected by MTT assay.Results RA FLS were infected with recombinant adenovirus Ad-EGFP-MDR1;72 hours later,the particles size in MDR1 over-expressed RA FLS increased,the cell volume became larger,and the growth rate decreased.The transcription level of MDR1(1.4325±0.3924 vs.0.0650±0.0070;t=6.035,P=0.004),the expression level of P-gp protein(1.8667±0.2857 vs. 0.9367±0.0551;t=5.536,P=0.005),and the ability of extracellular rhodamine 123(979.43±196.81 vs.1680.06±147.04;t=-4.940,P=0.008) in MDR1 over-expressed RA FLS were significantly higher than those of negative virus control RA-FLS,and the survival rate of MDR1 over-expressed RA FLS was significantly increased at each concentration of MTX(P<0.05).Conclusion The high expression of MDR1 can affect the efflux ability to MTX by up-regulating the expression of P-gp,thus enhancing the drug resistance to MTX in RA FLS.

Melding Pharmacogenomic Effect of MDR1 and CYP3A5 Gene Polymorphism on Tacrolimus Dosing in Renal Transplant Recipients in Northern India

IntroductionTacrolimus (TAC) is the mainstay immunosuppressant for renal transplantation. A narrow therapeutic index, multiple drug interactions, and interindividual variability in pharmacokinetics make it obligatory to monitor therapeutic drug levels. The Multidrug resistance gene 1 (MDR1) and CYP3A5 gene polymorphism may blend to achieve the optimal level. The optimal dose as per body weight is difficult to single out in the early posttransplantation period. In this study, we aimed to analyze the melding effect of both gene polymorphisms and to elicit the dose depending on the combination of genetic single nucleotide polymorphisms (SNPs) in northern Indian transplant recipients, for whom data are limited.MethodsThe daily TAC dose, weight-adjusted doses (mg/kg per day), TAC trough blood concentration (average of at least 3 levels), dose normalized with a corresponding dose using TAC concentration/weight-adjusted dose ratio (ng/ml per mg/kg per day) of 248 patients were recorded. All recipients were genotyped for the SNPs of CYP3A5 at intron 3 A6986G (the *3 or *1 allele), MDR1 at exons 12 (C1236T), 21 (G2677A/T), and 26 (C3435T). We analyzed the blending effect of mutant SNPs of the MDR gene and CYP3A5 for optimized TAC levels.ResultsAmong CYP3A5 genotypic variants, the dose-adjusted TAC level was significantly lower, and the TAC dose required to achieve the target level was significantly higher, in CYP3A5*1*1 (expressor) than that of CYP3A5*1*3 and CYP3A5*3*3. Of the MDR1 gene SNPs, only the G2677T/A homozygous mutant was significantly associated with TAC level, and it was strongly correlated with P-gp expression.The daily TAC dose requirement was highest with a combination of CYP3A5*1*1 and homozygous mutant TT+AA genotype of G2677T/A, and was lowest with CYP3A5*3*3 and wild-type GG of the G2677T/A genotype.ConclusionBoth CYP gene and MDR1 gene polymorphism affect TAC dose requirements, and there is a need to look for both in an individual to achieve the target trough concentration.

MDR1 gene polymorphism correlated with pathological characteristics and prognosis in patients with primary hepatocellular carcinoma receiving interventional therapy.

The aim of this study was to explore the relationship of multidrug resistance gene 1 (MDR1) C1236T and C3435T single nucleotides polymorphisms (SNPs) with hepatocellular carcinoma (HCC) pathological features and prognosis. A total of 143 patients with HCC were treated with transcatheter arterial chemoembolization. Moreover, 251 controls were included in the study. C1236T and C3435T single nucleotide polymorphisms (SNPs) were detected by PCR-RFLP. Association of C1236T and C3435T SNPs with HCC was analyzed subsequently. There was no significant difference in genotypes distribution between HCC group and control group (P>0.05), indicating comparability. Among patients with portal vein tumor thrombus, the CC+CT genotype of C1236T locus was significantly higher than that of TT genotype (P=0.031). The median progression-free survival after interventional therapy for patients with C3435T genotype T (TC+TT) and C genotype (CC) was 36 and 18 months, respectively. CC and TC+TT genotype patients with C1236T loci showed statistically significant differences in tumor size stratification (χ=4.006, P=0.045). When tumor diameter was less than 5 cm, 5-10 cm, and more than 10 cm, the mean survival time of C and T genotypes was decreased gradually. The logistic regression model suggested that lesion size, blood volume value, and permeability surface value were influential factors for response to chemoradiotherapy (all P<0.05). Univariate analysis showed that postoperative chemotherapy, portal vein tumor thrombus, and capsular invasion were correlated with overall survival in patients with HCC. Cox proportional hazard model showed that postoperative chemotherapy, capsule invasion, and portal vein tumor thrombus were independent factors of overall survival after interventional therapy in patients with HCC (all P<0.05). C1236T genotype may predict changes in pathological features of patients with HCC to a certain extent, and C3435T SNP can be used as one of the prognostic factors of HCC. Postoperative chemotherapy and portal vein tumor thrombus are independent factors of overall survival in patients with HCC.

Therapeutic Potential of DNAzyme Loaded on Chitosan/Cyclodextrin Nanoparticle to Recovery of Chemosensitivity in the MCF-7 Cell Line.

Commonly, acquired resistances to anticancer drug are mediated by overexpression of a membrane-associated protein that encode via multi-drug resistance gene-1 (MDR1). Herein, the mRNA-cleaving DNAzyme that targets the mRNA of MDR1 gene in doxorubicin-resistant breast cancer cell line (MCF-7/DR) loaded on the chitosan β-cyclodextrin complexes was used as a tropical agent. Chitosan/β-cyclodextrin complexes were used to deliver DNAzymes into cancer cells. Determination of the physicochemical characteristics of the particles was done by photon correlation spectroscopy and scanning electron microscopy. The encapsulation efficiency of the complexes was tested by using gel retardation assay. Positively charged nanoparticles interacted with DNAzyme that could perform as an efficient DNAzyme transfection system. The rationale usage of this platform is to sensitize MCF-7/DR to doxorubicin by downregulating the drug-resistance gene MDR1. Results demonstrated a downregulation of MDR1 mRNAs in MCF-7/DR/DNZ by real-time PCR, compared to the MCF-7/DR as control. WST1 assay showed the 22-fold decrease in drug resistance on treated cells 24 h after transfection. Results showed the intracellular accumulation of Rh123 increased in the treated cells with DNAzyme. Results suggested a potential platform in association with chemotherapy drug for cancer therapy and indicated extremely efficient at delivery of DNAzyme in restoring chemosensitivity.

Establishment and characterization of two cabazitaxel-resistant prostate cancer cell lines.

Once castration-resistant prostate cancer (CRPC) become resistant for cabazitaxel treatment, the patients are obliged to best supportive care. Therefore, the elucidation of the mechanism of the cabazitaxel-resistance and the conquest are important themes to improve the prognosis of the patients. Then we tried to establish cabazitaxel-resistant CRPC cell lines and characterized them. We established two cabazitaxel-resistant cell lines, PC-3-TxR/CxR and DU145-TxR/CxR from PC-3-TxR and DU145-TxR cell lines previously we established. PC-3-TxR/CxR and DU145-TxR/CxR cells became resistant for cabazitaxel by 11.8-fold and 4.4-fold, respectively. The TxR/CxR cells showed cabazitaxel-resistant using SCID mice in vivo. Although expression of multi-drug resistance gene 1 (MDR1) was up-regulated in DU145-TxR compared with DU145 cells, it was not up-regulated in DU145-TxR/CxR cells any more. In contrast, expression of MDR1 gene was up-regulated in PC-3-TxR compared with PC-3 cells and it was further up-regulated in PC-3-TxR/CxR compared with PC-3-TxR cells. Comparison of cDNA microarray between PC-3-TxR and PC-3-TxR/CxR cells or between DU145-TxR and DU145-TxR/CxR cells revealed that many genes were up-regulated or down-regulated. Finally, knockdown of MDR1 recovered the sensitivity to cabazitaxel not only in PC-3-TxR/CxR cells but also DU145-TxR/CxR cells. Together, regulation of MDR1 gene is important for conquest of the cabazitaxel-resistance.

Regulatory effect of resveratrol and prednisolone on MDR1 gene expression in acute lymphoblastic leukemia cell line (CCRF-CEM): An epigenetic perspective.

Chemotherapy is the most common method to treat leukemia as well as other types of human cancers. However, drug resistance has remained as the main challenge against the efficacy of treatments. Furthermore, having various adverse effects, chemotherapy drugs are becoming replaced by natural modalities for cancer therapy. In this regard, herbal components such as resveratrol and prednisolone have been identified to sensitize the leukemic cells to programmed cell death through a set of complex processes. In this study, we have examined DNA methylation on the human multidrug resistance gene 1 (MDR1) as a well-known marker for cellular drug resistance. We evaluated the effect of resveratrol and prednisolone on DNA methylation patterns of MDR1 gene promoter in the CCRF-CEM cell line as a representative for acute lymphoblastic leukemia. The study was aimed to clarify whether the MDR1 gene expression is regulated via DNA promoter methylation as a potential underlying mechanism, following exposure to resveratrol and prednisolone. Our data revealed that despite a strong influence to down-regulate the MDR1 expression, Resveratrol and Prednisolone did not alter the methylation pattern, suggesting other regulatory mechanisms in controlling the MDR1 expression in CCRF-CEM cell line. Unchanged status of DNA methylation of MDR1 gene may suggest that Resveratrol and Prednisolone causes the gene expression changes through a distinct mechanism which requires further studies to be understood. A more detailed understanding of the mechanisms beyond the regulation of the genes involved in cancer formation will help to design novel therapeutic strategies to fight the human cancers.

Indirubin 3′-oxime inhibits anticancer agent-induced YB-1 nuclear translocation in HepG2 human hepatocellular carcinoma cells

Hepatocellular carcinoma (HCC) is a disease with poor prognosis. Nuclear accumulation of YB-1 is closely related to the malignancy of HCC. Treatment with anticancer agents often induces translocation of YB-1 from cytoplasm to nucleus and activates the expression of multidrug resistance gene 1 (MDR1). Therefore, any effective inhibitor of this phenomenon would be useful for cancer treatment. Here we examined various indirubin derivatives and found that indirubin 3′-oxime inhibits actinomycin D-induced nuclear transport of YB-1 and suppresses the activation of MDR1 gene expression in the human hepatocellular carcinoma cell line HepG2. Furthermore, use of both indirubin 3′-oxime and actinomycin D in combination increased the anticancer effect on HepG2 cells. Indirubin 3′-oxime is a novel and efficient inhibitor of anticancer agent-induced YB-1 nuclear translocation.

Downregulation of NPM reverses multidrug resistance in human hepatoma cells via inhibition of P-glycoprotein expression.

Multidrug resistance (MDR) is an important issue in current cancer treatments. In human cancer, drug resistance is primarily associated with the overexpression of multidrug resistance gene 1 (MDR1). Therefore, the human MDR1 gene promoter may be a target for anti‑MDR drug screening. Numerous methods to prevent MDR have been investigated. However, they have been proven to be clinically ineffective. Therefore, the aim of the present study was to investigate whether downregulation of nucleophosmin (NPM) demonstrates any effects on the reversal of MDR in hepatocellular carcinoma (HCC) cells. In the present study, two invitro MDR HCC cell lines, HepG2/Adriamycin (ADM) and SMMC7721/ADM, were established and the level of MDR was measured. The results demonstrated that NPM downregulation markedly reversed the effects of MDR in the model used. In addition, NPM downregulation reduced P-glycoprotein expression, as well as MDR1 expression. These results suggested that downregulation of NPM may be a novel and effective method of reversing the effects of MDR, and may be a potential adjuvant for tumor chemotherapy.

Correlation of multidrug resistance genes and clinical risk factors with glucocorticoid response in patients with inflammatory bowel disease

Objective To investigate the correlation of multidrug resistance gene 1 (MDR1),NR3C1 gene polymorphisms and clinical risk factors with efficacy,dependence,and resistance of glucocorticoid (GC) in patients with inflammatory bowel disease (IBD).Methods Anti coagulation blood samples of 196 healthy controls and 105 IBD patients received GC therapy were collected.There were 62 ulcerative colitis (UC) and 43 Crohn's disease (CD) in the IBD patients.The number of GC sensitive,GC dependent and GC resistant of UC patients were 36,13 and 13,respectively,and those of CD patients were 24,11 and eight.GC refractoriness included GC dependence and resistance.The genotype of MDR1 C3435T and NR3C1 Bcl Ⅰ of all the subjects was detected by the restriction fragment length polymorphism-polymerase chain reaction (RFLP-PCR).The correlation between each genotype frequency,clinical features of patients with IBD and the efficacy of GC treatment was analyzed by Chisquare test,Fisher exact probability method or t test.Results Among UC patients,the disease course of GC refractory group and GC resistant group was longer than that of GC sensitive group ((6.660±1.523)years,(6.500±1.111) yearsvs (3.350±0.697) years,t=2.211,P=0.031; t=2.930,P=0.005).The serum level of C reaction protein (CRP) of GC refractory group was higher than that of GC sensitive group ((47.628±13.913) mg/Lvs (16.854±4.121) mg/L,t=2.121,P=0.047).The chronic relapse type was more common in GC refractory UC patients (Fisher exact probability method,P=0.035),and severe patients were more common in UC with GC resistance (Fisher exact probability method,P=0.021).The white blood cell count of GC resistant and GC refractory CD patient was lower than that of GC sensitive CD patients ((5.710 ± 0.604) ×109/L,(5.878±0.405) × 109/L vs (7.814 ±0.670) × 109/L,t=2.334,P=0.028; t=2.045,P=0.018).Patients with extraqntestinal manifestations was more common in CD with GC resistance (Fisher exact probability method,P=0.035).There was no statistically significant difference in the frequencies of MDR1 C3435T,NR3C1 Bcl Ⅰ genotypes,allelic genes and gene carrier among control group and GC sensitive dependent and resistant group of IBD patients.However,the frequency of MDR1 C3435T gene carrier was significantly different between GC sensitive group and GC refractory group,especially between GC sensitive group and GC resistance group (68.33％ vs 48.89％,x2 =4.051,P=0.044; 68.33％ vs 42.86％,x2 =4.274,P =0.039).Conclusions GC sensitivity of IBD patients with MDR1 C3435T loci T gene carrier was higher than that of IBD patients without T gene carrier.NR3C1 gene polymorphisms was not related with GC resistance and GC dependence.Compared with GC sensitive IBD patients,in GC resistant and GC dependent IBD pantient UC patients with long disease course,chronic relapse type,severe type,high level of CRP and CD patients with low white blood cell count and extra-intestinal manifestations were more common. Key words: Inflammatory bowel diseases; MDR1 gene; Receptors, glucocorticoid; Polymorphism,genetic

Indirubin derivatives alter DNA binding activity of the transcription factor NF-Y and inhibit MDR1 gene promoter

Indirubin derivatives exert antitumor activity. However, their effects on the expression of multidrug resistance gene 1 (MDR1) have not been investigated. Here we found three derivatives that inhibit the MDR1 gene promoter. To investigate the effects of indirubins on the DNA binding of NF-Y, a major MDR1 gene transcription factor that recognizes an inverted CCAAT element in the promoter, gel mobility shift assay was performed using the element as a probe with nuclear extracts from NG108-15, MCF7, HepG2, C2C12, and SK-N-SH cells. Among 17 compounds, 5-methoxyindirubin inhibited the DNA binding of NF-Y significantly, whereas indirubin-3′-oxime and 7-methoxyindirubin 3′-oxime increased the binding considerably. After evaluating a suitable concentration of each compound for transcription analysis using living tumor cells, we performed a reporter gene assay using a reporter DNA plasmid containing EGFP cDNA fused to the MDR1 gene promoter region. Indirubin-3′-oxime exerted a significant inhibitory effect on the MDR1 promoter activity in MCF7 and HepG2 cells, and 5-methoxyindirubin inhibited the activity only in MCF7 cells; 7-methoxyindirubin 3′-oxime suppressed the activity in all of the cell lines. We further confirmed that the compounds reduced endogenous MDR1 transcription without any inhibitory effect on NF-Y expression. Moreover, each compound increased the doxorubicin sensitivity of MCF7 cells. These results indicate that each indirubin derivative acts on the DNA binding of NF-Y and represses the MDR1 gene promoter with tumor cell-type specificity.

Effect of TRAIL in combination with DDP on the expression of MDR1 gene in gastric cancer cells.

IntroductionGastric cancer is one of the most common malignant tumor, and gastric cancer is the second most common cause of cancer mortality worldwide. Although chemotherapy is one of the most important treatment options for gastric cancer, and could improve the overall survival rate and quality of live, one significant reason for its failure is multidrug resistance (MDR).AimTo study the effect of tumour necrosis factor-related apoptosis-inducing ligand (TRAIL) combined with chemotherapeutic drug cisplatin (DDP) on the expression of multidrug resistance gene 1 (MDR1) in the gastric cancer cell line SGC-7901/VCR.Material and methodsSGC-7901/VCR cells were cultured with DDP and TRAIL in various concentrations. The apoptosis rate was separately measured by a flow cytometer in DDP (sub-toxic dose) alone, TRAIL (200 µg/l) alone and in a combination of the two. Expression levels of MDR1 mRNA and P-glycoprotein (P-gp) were detected by RT-PCR and ELISA analysis, respectively.ResultsThe apoptosis rate in the combination group was significantly higher than that in the other groups (p < 0.05). According to the results of RT-PCR and ELISA, the expressions of MDR1 mRNA and P-gp in the combination group were statistically significant different compared with other groups (p < 0.05).ConclusionsThe combination of TRAIL with DDP could reverse MDR phenotype in gastric cancer cell line SGC7901/VCR. The mechanism may be involved in the down-regulation of MDR1 mRNA and P-gp, which may play an essential role in overcoming the chemotherapeutic resistance of gastric cancer cells. This study indicates that a combination of chemotherapy and TRAIL may be an effective strategy to treat MDR gastric cancer.

Association of MDR1 gene polymorphism (G2677T) with imatinib response in Egyptian chronic myeloid leukemia patients

BackgroundDespite the excellent efficacy results of imatinib treatment in CML patients, resistance to imatinib has emerged as a significant problem. Genetic variations in genes involved in drug transportation might influence the pharmacokinetic and metabolism of imatinib. The genotype of a patient is increasingly recognized in influencing the response to the treatment.AimTo investigate the genotype frequencies of single nucleotide polymorphisms (SNPs) G2677T in CML patients undergoing imatinib treatment to determine whether different genotype pattern of these SNPs have any influence in mediating response to imatinib.MethodsA total of 96 CML and 90 control samples were analyzed for the human multidrug resistance gene 1 (MDR1) gene polymorphism (G2677T) using polymerase chain reaction-restriction fragment length polymorphism technique.ResultsGenotype distribution revealed a significant lower frequency of TT genotype in CML patients and non-significant difference in the GG, GT genotype frequencies between patients and controls (P = 0.004, 0.138, 0.210, respectively). GG genotype was significantly higher in chronic phase (P = 0.046), while GT genotype was significantly higher in Blastic crisis phase (P = 0.002). There was a significant difference in genotype frequency of G2677T among patients showing response and resistance to imatinib in chronic phase (P = 0.02). TT genotype was associated with complete hematological response (P = 0.01), complete cytogenetic response (P < 0.001), and better molecular response with a significant association (P < 0.001). GT genotype was associated with partial hematological response (P = 0.01) and minor cytogenetic response (P < 0.001). Optimal and suboptimal responses were observed for patients with TT genotype (P = 0.003). Failure of drug response was associated with GT genotype (P = 0.02); however, GG had no association with drug response. Multivariate analysis considered GT genotype as independent risk factor for resistance (P = 0.037), while TT genotype as protective factor against resistance to imatinib (P = 0.008).ConclusionDetermination of MDR1 polymorphisms (G2677T) might be useful in response prediction to therapy with imatinib in patients with CML.

Determination of MDR1 gene expression for prediction of chemotherapy tolerance and treatment outcome in dogs with lymphoma

The multidrug resistance gene 1(MDR1) expression levels were analysed in 27 dogs with different types of malignant lymphomas receiving a standard chemotherapy protocol. Blood samples were used for MDR1 real-time PCR expression analysis. Treatment tolerance and outcome were evaluated on a regular basis by clinical examination and client questioning. Dogs developing severe adverse effects under treatment showed significantly lower basal MDR1 gene expression levels when compared with those who tolerated the drugs well. In the longitudinal MDR1 gene expression analysis during treatment, four dogs showed a greater than two-fold MDR1 up-regulation, compared to baseline expression. All four of these dogs, but none of the others, showed disease progression. In conclusion, basal and follow-up MDR1 gene expression levels could be of predictive value for the occurrence of severe adverse drug reactions and/or the development of MDR during chemotherapy for lymphoma in dogs.

Association of the MDR1 3435 polymorphism in patients with refractory rheumatoid arthritis in a Chinese population

To evaluate whether the multidrug resistance gene 1 (MDR1) exon 26 polymorphisms are associated with the refractory rheumatoid arthritis (RRA). The study was carried out on two hundred and twenty-three patients with RA treated and one hundred and three normal controls. The RA treated were divided into two groups according the response to disease-modifying antirheumatic drugs (DMARDs). There were 108 patients in the effective group and 115 patients in the ineffective group. Genotypes of the C3435T polymorphism were determined by polymerase chain reaction followed by restriction digestion (PCR-RFLP). There were significant differences in the genotype frequency and allele frequency among three groups. Compared to responders and controls, the nonresponders carried more CC genotype (χ(2) = 5.306, P = 0.021; χ(2) = 7.810, P = 0.005) and more C allele (χ(2) = 6.601, P = 0.010; χ(2) = 12.172, P = 0.000). But, there were no statistically significant differences in genotype nor allele frequency between RA and healthy controls. The results from our study suggest that the C3435T MDR1 gene polymorphism may not be related with the RA susceptibility, but may influence the efficacy of RA therapy with DMARDs, and the 3435CC genotype may be related with RRA.

Study on predictive role of AR and EGFR family genes with response to neoadjuvant chemotherapy in locally advanced breast cancer in Indian women

Locally advanced breast cancer (LABC) remains a clinical challenge as the majority of patients with this diagnosis develop distant metastases despite appropriate therapy. We analyzed expression of steroid and growth hormone receptor genes as well as gene associated with metabolism of chemotherapeutic drugs in locally advanced breast cancer before and after neoadjuvant chemotherapy (NACT) to study whether there is a change in gene expression induced by chemotherapy and whether such changes are associated with tumor response or non-response. Fifty patients were included with locally advanced breast cancer treated with cyclophosphamide, adriamycin, 5-fluorouracil (CAF)-based neoadjuvant chemotherapy before surgery. Total RNA was extracted from 50 match samples of pre- and post-NACT tumor tissues. RNA expression levels of epidermal growth factor receptor family genes including EGFR, ERBB2, ERBB3, androgen receptor (AR), and multidrug-resistance gene 1 (MDR1) were determined by quantitative real-time reverse transcriptase-polymerase chain reaction. Responders show significantly high levels of pre-NACT AR gene expression (P = 0.016), which reduces following NACT (P = 0.008), and hence can serve as a useful tool for the prediction of the success of neoadjuvant chemotherapy in individual cancer patients with locally advanced breast carcinoma. Moreover, a significant post-therapeutic increase in the expression levels of EGFR and MDR1 gene in responders (P = 0.026 and P < 0.001) as well as in non-responders (P = 0.055, P = 0.001) suggests that expression of these genes changes during therapy but they do not have any impact on tumor response, whereas a post-therapeutic reduction was observed in AR in responders. This indicates an independent predictive role of AR with response to NACT.

MDR-1 gene polymorphisms in steroid-responsive versus steroid-resistant nephrotic syndrome in children

The putative genetic regulation of multidrug resistance gene-1 (MDR-1) gene expression and P-glycoprotein function has not yet been clearly delineated in patients with nephrotic syndrome (NS). We undertook this study to examine the distribution of three most frequent MDR-1 exonic polymorphisms G3435C, G2677T/A and C1236T in patients with NS and control children to investigate their usefulness as markers of responsiveness of the disease to steroids. Two hundred and sixteen children with NS and 216 healthy controls were genotyped for three exonic MDR-1 polymorphisms (G3435C, G2677T/A and C1236T) by using the polymerase chain reaction-restriction fragment length polymorphism technique. The frequency distribution of genotypes/alleles was compared between patients with NS and controls and also between steroid-sensitive NS (SSNS) and steroid-resistant NS (SRNS) patients. Of the total 216 cases of NS (median age of onset 5 years, 165 males), 137 had SSNS, and 79 had SRNS. Homozygous mutants of C3435T (TT versus CC, P = 0.034) and G2677T/A (TT + AA versus GG), P = 0.030) were significantly higher in patients with NS compared to controls. The frequency distribution of homozygous mutant TT + AA compared to wild genotype GG was significantly higher in SRNS than SSNS patients (P = 0.011) for G2677T/A, while the mutant genotypes for C3435T and C1236T were not different between SRNS and SSNS patients. The combination-bearing mutant genotype either of C3435T or G2677T/A exhibited a significantly higher frequency of mutant genotypes distribution in SRNS patients. MDR-1 haplotypes did not differ significantly between SSNS and SRNS patients. Patients with NS carrying homozygous mutants of single nucleotide polymorphism (SNP) G2677T/A are prone to develop SRNS. The synergistic effect of mutant genotypes of SNPs G2677T/A and C3435T in different combinations increase the risk of developing steroid resistance in patients with NS.