Reversal effect of specific inhibitors of extracellular-signal regulated protein kinase pathway on P-glycoprotein mediated vincristine resistance of L1210 cells

Effect of specific inhibitors of extracellular-signal regulated protein kinase (ERK) pathway, PD98059 and U0126, on P-glycoprotein (Pgp)-mediated vincristine resistance of L1210/VCR cells was investigated. Both test inhibitors significantly reduced the survival of L1210/VCR cells in the presence of vincristine and this was associated with a decrease of LC50 values to vincristine from 2.65+/-0.43 to 0.67+/-0.28 micromol/l and to 0.69+/-0.09 micromol/l after treatment with 50 micromol/l PD98059 and 25 micromol/l UO126, respectively. Moreover, the effects of PD98059 are connected also with an increased intracellular accumulation of radiolabeled vincristine in resistant L1210/VCR cells in concentration dependent manner. The results of this study demonstrate that inhibitors of ERK signaling pathway are reversal agents of vincristine resistance in L1210/VCR cells. The precise mechanism of PD98059 and U0126 action in modulation of MDR is not resolved yet, but the role of ERK-mediated phosphorylation cascade could be considered.     

Expression of P-glycoprotein in L1210 cells is linked with rise in sensitivity to Ca2+

L1210/VCR cell line (R) was obtained by adaptation of the L1210 mouse leukaemia cells (S) to vincristine and showed P-glycoprotein (P-gp) mediated multidrug resistance (MDR). R cells were observed to be more sensitive to high external calcium as parental S. More pronounced calcium uptake was observed for R cells. Moreover, differences in intracellular calcium cell localization between S and R cells were found ultrastructurally following a calcium precipitating cytochemical method. In S cells, calcium precipitates were found to be localized predominantly along the cell surface coat and within mitochondria delineating the cristae. In R cells, precipitates were also found inside nuclei, at the border of heterochromatin clumps, and scattered within the cytoplasm. High extracellular calcium did not influence the P-gp mediated extrusion of calcein/AM as P-gp substrate. These results indicate that calcium enters and consequently damages the MDR cells to a higher extent than parental cells.     

Functional fluo-3/AM assay on P-glycoprotein transport activity in L1210/VCR cells by confocal microscopy

Multidrug resistance (MDR) phenotype of L1210/VCR cell line, acquired by selection for vincristine (VCR), is predominantly mediated by P-glycoprotein (Pgp). Calcein/AM (Cal) was recently described as a fluorescent substrate for Pgp and may be used for measuring of transport activity of Pgp. Expression of Pgp in the cells prevents them to be loaded with the fluorescent marker. To detect the activity of Pgp, verapamil (Ver) or cyclosporine A (CsA) has to be used as Pgp inhibitors. Multidrug resistance protein (MRP), another drug efflux pump, may be inhibited by probenecid (Pro), i.e, the inhibitor of a wide variety of anion transporters. Ver, but not Pro, is able to induce the loading of L1210/CR cells by Cal that is measurable by fluorescence-activated cell sorter (FACS). Another dye, fluo-3/AM (F-3), has a similar behaviour like Cal. Using confocal microscopy we have proved that L1210/VCR cells, in contrast to parental sensitive cells, are not loaded with F-3. Marking of cells with the dye can be achieved using inhibitors of Pgp like Ver or CsA but not by Pro. These results indicate that F-3 is usable for detection of Pgp function in various MDR tissue cells.     

应用蛋白质组学技术筛选胃癌耐药相关蛋白质

胃癌多药耐药性是临床胃癌化疗失败最主要的原因之一,但其分子机制仍然不太清楚.为了寻找新的胃癌耐药相关的蛋白质,揭示胃癌多药耐药的分子机制,以胃癌细胞SGC7901和长春新碱诱导的耐药胃癌细胞SGC7901/VCR为研究对象,应用二维凝胶电泳(two-dimensionalelectrophoresis,2-DE)技术分离两种细胞的总蛋白质,图像分析识别差异表达的蛋白质点,基质辅助激光解吸电离飞行时间质谱(matrix-assistedlaserdesorption/ionizationtimeofflightmassspectrometry,MALDI-TOF-MS)及电喷雾电离串联质谱(electrosprayionizationtandemmassspectrometry,ESI-Q-TOF)对差异表达的蛋白质点进行鉴定,蛋白质印迹和实时RT-PCR验证部分差异蛋白质在两株细胞中的表达水平,反义核酸转染技术分析HSP27(heatshockprotein27,HSP27)高表达与SGC7901/VCR耐药的相关性.得到了分辨率较高、重复性较好的两株细胞系的二维凝胶电泳图谱,质谱分析共鉴定了24个差异蛋白质点,蛋白质印迹和实时RT-PCR验证了部分差异蛋白的表达水平,反义寡核苷酸抑制HSP27表达能增加SGC7901/VCR对长春新碱的敏感性.研究结果不仅提示这些差异蛋白质如HSP27,Sorcin等可能与胃癌的多药耐药相关,而且为揭示胃癌细胞的多药耐药性产生机制提供了线索.     

Differential expression of regulatory proteins in L1210/VCR cells with multidrug resistance mediated by P-glycoprotein.

Phosphorylation of P-glycoprotein (PGP) by some protein kinases may play an important role in the regulation of its drug transport activity, and may also be important for the development of multidrug resistance (MDR) phenotype. In the present study we investigated the expression of three groups of mitogen-activated protein kinases (MAPKs). The expression of ERKs, SAPK/JNKs and p38-MAPK was studied at the protein level in sensitive (L1210) and multidrug resistant (L1210/VCR) cells. The expression of ERKs in multidrug resistant cells did not differ from those observed in parental sensitive cells. On the other hand, the development of multidrug resistance phenotype in L1210/VCR cells was associated with increased expression of cytosolic p38-MAPK and also proteins of 90 and 130 kDa that react with antibody specific for SAPK/JNKs. The expression of the proteins mentioned was stimulated above all in conditions when vincristine was present in cultivation medium and the stimulation of transport activity of PGP was necessary for the cell survival. The development of multidrug resistance phenotype in L1210/VCR cells was not associated with significant changes in expression of several heat-shock proteins (hsp25, hsp60, hsp70, hsp90). The levels of these proteins were comparable in sensitive L1210 and resistant L1210/VCR cells, and vincristine did not influence the expression of heat-shock proteins in resistant cells.     

Proteome analysis of multidrug resistance in vincristine-resistant human gastric cancer cell line SGC7901/VCR

In order to elucidate the mechanisms of multidrug resistance (MDR) of vincristine-resistant human gastric carcinoma cell line SGC7901/VCR, 2-DE was used to separate the total proteins of SGC7901/VCR and its parental cell line SGC7901. PDQuest software was applied to analyze 2-DE images, and the differential protein spots were identified by both MALDI-TOF-MS and ESI-Q-TOF-MS. Then the differential expressional levels of partially identified proteins were determined by Western blot analysis and real-time RT-PCR. Furthermore, the association of heat shock protein (HSP27), one of the highly expressed proteins in sgc7901/vcr, with MDR was analyzed using antisense inhibition of HSP27. In this study, the well-resolved, reproducible 2-DE patterns of SGC7901/VCR and SGC7901 were established, and yielded about 1100 protein-spots each. All the 24 differential proteins between the two cell lines were identified, and the differential expression levels of the partial proteins were confirmed. The suppression of HSP27 expression by HSP27 antisense oligonucleotides could enhance vincristine chemosensitivity in sgc7901/vcr and induce the cells to exhibit apoptotic morphological features after vincristine treatment. The differentially expressed proteins could be divided into six groups based on their functions: calcium-binding proteins, chaperones, proteins involved in drug detoxification or repair of DNA damage, metabolic enzymes, proteins related to cellular structure, and proteins relative to signal transduction, some of which may contribute to MDR of human gastric carcinoma cell line SGC7901/VCR. These data will be valuable for further study of the mechanisms of MDR in human gastric cancer.     

P-glycoprotein-mediated multidrug resistance phenotype of L1210/VCR cells is associated with decreases of oligo- and/or polysaccharide contents

Multidrug resistance of murine leukaemic cell line L1210/VCR (obtained by adaptation of parental drug-sensitive L1210 cells to vincristine) is associated with overexpression of mdr1 gene product P-glycoprotein (Pgp)-the ATP-dependent drug efflux pump. 31P-NMR spectra of L1210 and L1210/VCR cells (the latter in the presence of vincristine) revealed, besides the decrease of ATP level, a considerable lower level of UDP-saccharides in L1210/VCR cells. Histochemical staining of negatively charged cell surface binding sites (mostly sialic acid) by ruthenium red (RR) revealed a compact layer of RR bound to the external coat of sensitive cells. In resistant cells cultivated in the absence or presence of vincristine, the RR layer is either reduced or absent. Consistently, resistant cells were found to be less sensitive to Concanavalin A (ConA). Moreover, differences in the amount and spectrum of glycoproteins interacting with ConA-Sepharose were demonstrated between sensitive and resistant cells. Finally, the content of glycogen in resistant cells is lower than in sensitive cells. All the above facts indicate that multidrug resistance of L1210/VCR cells mediated predominantly by drug efflux activity of Pgp is accompanied by a considerable depression of oligo- and/or polysaccharides biosynthesis.     

The effect of 5'-(N,N-dimethyl)-amiloride on cytotoxic activity of doxorubicin and vincristine in CEM cell lines

Intracellular pH (pHi) plays an important role in anticancer drug accumulation in cancer cells. Resistant cells often express membrane P-glycoprotein responsible for active drug extrusion and participating in increased pHi. In the present paper, we report on the influence of Na+/H+-exchanger inhibitor, 5'-(N,N-dimethyl)-amiloride (AMI), on the cytotoxic effects of doxorubicin (DOXO) and vincristine (VCR) in the parental CEM, and resistant CEM/DNR and CEM/VCR cell lines. The obtained results revealed a potentiating effect of AMI to both anticancer drugs in parental CEM line. However, AMI did not significantly potentiate the effect of DOXO or VCR in resistant CEM cell lines. We conclude, that inhibition of Na+/H+-exchanger by AMI is not sufficient for reversal of drug resistance in the tested CEM/DNR and CEM/VCR cell lines and the possible change in pHi does not affect the mechanisms of cell resistance.     

Glutathione S-transferase does not play a role in multidrug resistance of L1210/VCR cell line

Multidrug resistance of cancer cells is often accompanied by the (over)expression of integral plasma membrane P-glycoprotein, an ATP-dependent transport pump for diverse unrelated compounds. The glutathione detoxification system represents another mechanism that may be involved in multidrug resistance. In the multidrug-resistant L1210/VCR cell line obtained by long-term adaptation of parental L1210 cells to vincristine, an increased expression of P-glycoprotein has previously been established. In this paper, we investigated if the glutathione detoxification system is also involved in the multidrug resistance of these cells. L1210/VCR cells with resistance induced by adaptation to vincristine were also found to be cross-resistant to vinblastine, actinomycin D, mitomycin C, doxorubicin and cyclophosphamide. The resistance of the above cells to vincristine and doxorubicin was accompanied by a depression of drug accumulation (which has not yet been established for other drug). L1210/VCR cells are able to survive better than sensitive cells under conditions when glutathione was depleted by L-buthionine sulfoximine. Nevertheless, L-buthionine sulfoximine did not influence the resistance of L1210/VCR cells to vincristine. Moreover, the presence of sublethal concentrations of cytostatics neither changed the IC50 value of resistant cells to L-buthionine sulfoximine nor the cytoplasmic activity of glutathione S-transferase, the crucial enzyme of glutathione detoxification system. All the above findings indicate that the glutathione detoxification system is not involved in the mechanisms that ensure the multidrug resistance phenotype of L1210/VCR cells.     

Prolongation of pentoxifylline aliphatic side chain positively affects the reversal of P-glycoprotein-mediated multidrug resistance in L1210/VCR line cells

We reported previously that derivatives of pentoxifylline (PTX) reverse multidrug resistance (MDR) in P-glycoprotein (P-gp) positive L1210/VCR cells. Based on the results of a recent study using 25 N-alkylated methylxanthines with carbohydrate side-chains of various lengths, we formulated the following design criteria for a methylxanthine molecule to effectively reverse P-gp mediated MDR: i) a massive substituent at the N1 position is crucial for MDR reversal potency; ii) elongation of the substituents at the N3 and N7 positions (from methyl to propyl) increases the efficacy of a xanthine to reverse MDR; iii) elongation of the substituent at the C8 position (from H to propyl) decreases the efficacy of a xanthine to reverse MDR. Based on these criteria, we synthesized and tested for potency to reverse MDR a new PTX derivative, 1-(10-undecylenyl)-3-heptyl-7-methyl xanthine (PTX-UHM), with prolonged substituents at the N1 and N3 positions. The derivative was obtained by alkylation of 3-heptyl-7-methyl xanthine with 1-methylsulfonyloxy-10-undecylenyl. NMR and IR structural analyses proved the identity of the product. Cytotoxicity study showed that PTX-UHM is only slightly more toxic to L1210/VCR cells than PTX. We found that both PTX-UHM and PTX were able to reverse vincristine resistance of L1210/VCR cells, yet PTX-UHM was significantly more efficient in the reversal than PTX.     

Multidrug resistant HOB1 lymphoma cells express P-glycoprotein that does not play the major role in the development of drug resistance to adriamycin.

Two cell lines resistant to 0.1 microM vincristine (VCR) and 2.0 microM adriamycin (ADR), respectively, (designated HOB1/VCR0.1 and HOB1/ADR2.0) were established from a human immunoblastic B lymphoma cell line. These cell lines showed the typical MDR phenotype with overexpression of P-glycoprotein and decreased [3H]VCR accumulation. The retention amounts of intracellular [3H]VCR in these two cell lines could be augmented by verapamil. However, in spite of the overproduction of P-glycoprotein, both HOB1/VCR1.0 and HOB1/ADR2.0 cells did not exhibit decreased accumulation of intracellular [14C]ADR. And the retention of [14C]ADR was not affected by verapamil. Our data support that P-glycoprotein is a drug transporter more important for the development of drug resistance to VCR than to ADR.     

Carbonyl group of aliphatic side chain of pentoxifylline does not play role for P-glycoprotein antagonizing effect of pentoxifylline

Previously we have found that pentoxifylline (PTX), but not caffeine, theophylline, or 1-methyl-3-isobutylxanthine, affects sensitivity of L1210/VCR cells, a line with multidrug resistance mediated by P-glycoprotein (P-gp) to vincristine (VCR) and doxorubicine. Comparison of chemical structure of PTX with other above xanthines has revealed only one marked difference. PTX contains extended aliphatic chain containing reactive electrophilic carbonyl group in the position N1. The investigation of possibility that this group is crucial for PTX-induced MDR reversal represents the aim of the current paper. To prove this hypothesis, we used the new synthesized PTX derivative in which the carbonyl group is modified by a substance containing amino-group and the product of reaction is the respective Schiff base (SB). Successful reaction was observed when PTX reacted with 3,5-diaminobenzenesulfonyl acid (DABS). The product of reaction of DABS with carbonyl group of aliphatic part of PTX was proved using NMR and IR spectroscopy. We found that the resulting PTX derivative PTX-SB revealed higher cytotoxicity on both sensitive L1210 and multidrug resistant L1210/VCR cells than PTX. Moreover, PTX-SB exerts more pronounced MDR reversal effect on L1210/VCR cells than PTX. These results indicate that electrophilic carbonyl group on aliphatic chain located in position N1 of PTX is not essential for MDR reversal effects of PTX.     

ATP/Mg2+-dependent binding of vincristine to the plasma membrane of multidrug-resistant K562 cells

To study the mechanism of active drug efflux in multidrug-resistant cells, the interaction between [3H] vincristine (VCR) and plasma membrane prepared from an adriamycin (ADM)-resistant variant (K562/ADM) of human myelogenous leukemia K562 cells was examined by filtration method. [3H]VCR bound to the plasma membrane prepared from K562/ADM cells, but not from parental K562 cells, depending on the concentrations of ATP and Mg2+. Adenosine 5'-O-(3-thio)triphosphate was not effective in the binding of [3H]VCR, indicating that ATP hydrolysis is required for this binding. Dissociation constant (Kd) of VCR binding was 0.24 +/- 0.04 microM in the presence of 3 mM ATP. In the absence of ATP, specific binding of VCR to K562/ADM membrane was also observed; however, the affinity (Kd = 9.7 +/- 3.1 microM) was 40 times lower than that observed in the presence of ATP. The high affinity VCR binding to K562/ADM membrane was dependent on temperature. The bound [3H]VCR molecules were rapidly released by unlabeled VCR added to the reaction mixture at 25 degrees C. The high affinity binding of [3H]VCR to K562/ADM membrane was inhibited by VCR, vinblastine, actinomycin D, and ADM, to which K562/ADM cells exhibit cross-resistance, whereas 5-fluorouracil and camptothecin, to which K562/ADM cells are equally sensitive as K562 cells, did not inhibit the [3H]VCR binding. Furthermore, verapamil and other agents, which are known to circumvent drug resistance by inhibiting the active efflux of antitumor agents from resistant cells, could also inhibit the high affinity [3H]VCR binding. These results indicate that ATP/Mg2+-dependent high affinity VCR binding to the membrane of resistant cells closely correlates with the active drug efflux of this resistant cell line.     

Structural differences between sensitive and resistant L1210 cells

The main structural differences between sensitive L1210 mouse leukaemic cells and their multidrug resistant counterpart, obtained by adaptation of the parental cell line to vincristine (VCR), concern the size and shape of the cells, their surface properties and changes in organelles involved in proteosynthesis and transport of substances. The resistant cells are larger with higher density of microvilli. In light and electron micrographs containing a group of cells, cells were found to be closer to each other in L1210/VCR cells than in L1210 cells. This difference in cell aggregation suggests different surface properties which could be visualised by decreased staining of L1210/VCR cell surface coat (glycocalyx) with a polycationic dye ruthenium red. A decrease in surface to volume ratio as a consequence of increased cell size in resistant cells is compensated by proliferation of villi and cytoplasmic protrusions of the cell surface. L1210/VCR cells were further distinguished by higher amount of euchromatin, increase in density of rough endoplasmic reticulum, more developed Golgi apparatus and aggregation of free ribosomes into tetrameric and pentameric polyribosomes. These structural changes may be interpreted as a sign of increase in proteosynthesis and transport of substances.     

Structure-activity relationships of some taxoids as multidrug resistance modulator

1,7-Deoxy-4-deacetylbaccatin III (12) and its five analogues 6-9, 13, and their oxetane ring opened derivatives 14, 16, and 17, which were synthesized from taxinine, showed significant activity as MDR reversal agent by the assay of the calcein accumulation toward MDR human ovarian cancer 2780AD cells. The most effective compound 12 in this assay is actually efficient for the recovery of cytotoxic activity of paclitaxel (taxol), adriamycin (ADM), and vincristine (VCR) toward MDR 2780AD cells at the same level toward parental 2780 cells. This activity of 12 is very interesting because baccatin III (4) has no such MDR reversal activity but has cytotoxic activity. The essential functional groups inducing such a difference in biological activity between 4 and 12 are 4alpha-acetoxyl for 4 and 4alpha-hydroxyl for 12. In seven compounds possessing MDR reversal activity, compound 12 is the most desirable compound for anti-MDR cancer reversal agent, because it has the highest accumulation ability of anticancer agent in MDR cancer cells and weak cytotoxic activity. Compounds 8 and 13 showed significant cytotoxic activity toward HepG2 and VA-13, respectively, as well as MDR reversal activity. They are expected to become lead compounds for new types of anticancer agent or anti-MDR cancer agent.     

Reversal of multidrug resistance of vincristine-resistant gastric adenocarcinoma cells through up-regulation of DARPP-32

Here we investigated the roles of DARPP-32 in multidrug resistance (MDR) of gastric cancer cells and the possible underlying mechanisms. We constructed the eukaryotic expression vector of DARPP-32 and transfected it into human vincristine-resistant gastric adenocarcinoma cell line SGC7901/VCR. Up-regulation of DARPP-32 could significantly enhance the sensitivity of SGC7901/VCR cells towards vincristine, adriamycin, 5-fluorouracil and cisplatin, and could decrease the capacity of cells to efflux adriamycin. What's more, the results of subrenal capsule assay confirmed that DARPP-32 might play a certain role in MDR of gastric cancer. DARPP-32 could significantly down-regulate the expression of P-gp and zinc ribbon domain-containing 1 (ZNRD1), but not alter the expression of multidrug resistance-associated protein (MRP) or the glutathione S-transferase (GST). DARPP-32 could also significantly decrease the anti-apoptotic activity of SGC7901/VCR cells. Further study of the biological functions of DARPP-32 might be helpful for understanding the mechanisms of MDR in gastric cancer.     

Changes in nurse cell nuclei during synchronous infection with Trichinella spiralis

The rate of enlargement of nuclei was determined on 4-microns-thick sections of synchronously infected mouse thigh muscle. Normal muscle nuclei had a geometric mean volume of 84 microns and a range of 42-170 microns 3. At days 5, 6, 7, 8, and 10 and 6 mo after infection, mean nuclear volume was 177 (100-315) microns 3, 254 (140-462) microns 3, 278 (172-447) microns 3, 681 (407-1,138) microns 3, 512 (326-804) microns 3, and 509 (298-870) microns 3, respectively. Size of nuclei for any given day followed a log normal distribution. On days 7 and 8 after infection, 31% of enlarged nuclei had 2 nucleoli, whereas only 15% had 2 nucleoli on day 10. One percent of enlarged nuclei in 6-mo-old nurse cells had double nucleoli. The number of enlarged nuclei in 6-mo-old nurse cells was determined from serial sections of infected tongue muscle. Each nurse cell contained an average of 40 enlarged nuclei. Sixty-four percent of nurse cells examined (n = 55) had between 30 and 60 enlarged nuclei. However, there was great variation in the range (7-142). These results are discussed in relation to the development of the nurse cell.