EC:3.6.3.44 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.44 (P-glycoprotein)
13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

B16 mouse melanoma cells are grown inhibited by cyclic AMP or by retinoic acid (RA). However, the combination of these two agents results in less growth inhibition than either agent alone. In order to investigate this interaction, cells were selected for resistance to 8-bromo-cyclic AMP-induced growth inhibition. Two clones (3 and 7) which demonstrated significant resistance were isolated. When these two clones were treated with retinoic acid (RA) it was observed that they also exhibited different degrees of resistance to this growth inhibitor. This cross-resistance did not appear to be due to a lack of uptake or retention of the respective inhibitors, since the mutants took up and retained more 3H-cAMP and 3H-RA than wild type cells, suggesting that the dual resistance was not due to an amplification of P-glycoprotein. The mutation confering cAMP-resistance did not appear to involve cyclic AMP-dependent protein kinase, since both catalytic activity and the amount of cAMP protein binding was similar in wild type and mutants. Thus, the mutation must be beyond the interaction of cAMP with cAMP-dependent protein kinase. We have previously reported that RA induces protein kinase C in B16 melanoma cells (Niles and Loewy: Cancer Res. 49:4483-4487, 1989). Therefore, we measured the ability of RA to induce protein kinase C in the cyclic AMP-resistant mutants. We found an inverse correlation between RA-induced protein kinase C activity and growth inhibition in these mutants. The data reported here suggest that cyclic AMP regulates some step in the RA signal transduction pathway.
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PMID:B16 mouse melanoma cells selected for resistance to cyclic AMP-mediated growth inhibition are cross-resistant to retinoic acid-induced growth inhibition. 164 60

The plant diterpene forskolin reverses acquired resistance to doxorubicin in variants of the murine sarcoma S180 cell line. Because forskolin is known to elevate intracellular cAMP levels, investigations were performed to determine whether this reversal of resistance resulted from effects on signal transduction. Two analogues of forskolin, dideoxyforskolin, which does not elevate cAMP, and a water-soluble analogue, were also investigated. Although all three diterpenes elevated levels of either cAMP or protein kinase C, these effects were not consistently associated with reversal of doxorubicin resistance. Likewise, all three diterpenes were capable of displacing [3H]azidopine from P-glycoprotein, but reversal of doxorubicin resistance was observed only with forskolin and dideoxyforskolin, suggesting that binding to P-glycoprotein may be a necessary, but not sufficient, condition for reversing doxorubicin resistance. The hydrophobicity of the compounds appeared to be the single factor most consistently related to reversal of doxorubicin resistance in this cell system, with the hydrophilic compound water-soluble forskolin failing to produce this result, even at concentrations 10-fold higher than effective concentrations of the hydrophobic diterpenes.
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PMID:Reversal of doxorubicin resistance by hydrophobic, but not hydrophilic, forskolins. 168 37

Wild-type Chinese hamster ovary (CHO) cells were transfected with a DNA clone (MT-REV, site A) carrying a mouse gene for a dominant mutant regulatory subunit (RI) gene of cAMP-dependent protein kinase (PKA) from S49 cells along with a marker for G418 resistance. G418-resistant transfectant clone R-2D1 was resistant to 8-Br-cAMP-induced growth inhibition and morphological changes. The cells also did not phosphorylate a 50-kDa protein after cAMP stimulation and had decreased PKA activity, both characteristics of PKA mutants. Northern blot analysis indicated that clone R-2D1 was actively transcribing the MT-REV (site A)-specific RNA. We also tested clone R-2D1 for sensitivity to certain natural product hydrophobic drugs and found increased sensitivity to several drugs including adriamycin. Hypersensitivity to these drugs has previously been shown by us to be a characteristic of a CHO PKA mutant cell line. Expression of the mutant RI gene is also associated with a decrease in expression of the multidrug resistance associated P-glycoprotein (gp170) mRNA and protein. These results show that the PKA mutant RI gene from S49 cells acts as a dominant mutation to reduce the total PKA activity in the CHO transfectants as it does in mouse S49 cells. This study also confirms that reduced PKA activity modulates the basal multidrug resistance of these cells, apparently by causing decreased expression of the mdr gene at the protein and mRNA level.
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PMID:Transfection of a mutant regulatory subunit gene of cAMP-dependent protein kinase causes increased drug sensitivity and decreased expression of P-glycoprotein. 197 96

8-Cl-cAMP, a site-selective analogue of cAMP, decreased mdr-1 expression in multidrug-resistant human breast cancer cells. A sixfold reduction of mdr-1 mRNA expression by 8-Cl-cAMP began within 8 h of treatment and was associated with a decrease in the synthesis of P-glycoprotein and with an increase in vinblastine accumulation. A reduction in mdr-1 expression after 8-Cl-cAMP treatment was also observed in multidrug-resistant human ovarian cancer cell lines. 8-Cl-cAMP is known to change the ratio between the two regulatory subunits, RI and RII, of protein kinase A (PKA). We observed that RI alpha decreased within 24 h of 8-Cl-cAMP treatment, that RII beta increased after as few as 3 h of treatment, and that PKA catalytic activity remained unchanged during 48 h of 8-Cl-cAMP treatment. The results are consistent with the hypothesis that mdr-1 expression is regulated in part by changes in PKA isoenzyme levels. Although 8-Cl-cAMP has been used to differentiate cells in other model systems, the only differentiating effect that could be detected after 8-Cl-cAMP treatment in the MCF-7TH cells was an increase in cytokeratin expression. Evidence that the reduction of mdr-1 mRNA occurred at the level of gene transcription was obtained by measuring chloramphenicol acetyltransferase (CAT) mRNA in MCF-7TH cells transfected with an mdr-1 promoter-CAT construct prior to 8-Cl-cAMP treatment. Thus, 8-Cl-cAMP is able to downregulate mdr-1 expression and suggests a new approach to reversal of drug resistance in human breast cancer.
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PMID:Downregulation of mdr-1 expression by 8-Cl-cAMP in multidrug resistant MCF-7 human breast cancer cells. 754 90

Using an in situ kinase assay we have identified kinases that are elevated in some multidrug resistant cells. Kinases were detected by measurement of 32P incorporation in proteins that were renatured after being subjected to SDS-polyacrylamide gel electrophoresis and transferred to polyvinylidene difluoride membranes [Ferrell and Martin: J Biol Chem 264:20723-20729, 1989; Mol Cell Biol 10:3020-3026, 1990]. Kinases at 79, 84, and 92 kDa showed increased activity in the multidrug resistant human KB-V1 cells as compared to the sensitive parental KB-3-1 cells. The KB-V1 multidrug resistant cell line exhibited a 170 kDa membrane associated kinase activity that was not present in the parental drug sensitive line. The 170 kDa kinase activity was not affected by Ca++, phosphatidylserine, or cAMP, but was diminished after incubation in the presence of the kinase inhibitors staurosporine, K252a and KT5720. The 170 kDa kinase activity phosphorylated mainly threonine, with no evidence of tyrosine phosphorylation, and was not identical to either the multidrug resistance associated P-glycoprotein or the EGF receptor. Other multidrug resistant cell lines also showed elevated 170 kDa kinase activity, such as the human breast cancer MCF-7/Adr(R) and murine melanoma B16/Adr(R) cells, but the activity was not present in murine leukemia P-388 sensitive or multidrug resistant cells.
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PMID:Identification of a 170 kDa membrane kinase with increased activity in KB-V1 multidrug resistant cells. 769 26

We examined the in vitro effects of 8-chloro-adenosine 3':5'-monophosphate (8-Cl-cAMP), a reportedly stable, potent and site-selective analogue of cAMP, on the proliferation and sensitivity to doxorubicin (DXR) of two mouse cell lines, the B16 melanoma and Friend leukaemia, both as wild-type (B16, FLC) and DXR-resistant (B16/DXR, FLC/DXR) variants. The latter strains had characteristics of 'typical' multidrug resistance (MDR), including the over-expression of P-glycoprotein. Encouragingly, 8-Cl-cAMP affected almost equally the growth of the chemosensitive and chemoresistant variants of both cell lines. Its activity proved to be much more elevated on cells cultivated with fresh rather than heat-inactivated calf serum. In fact, the IC50 values for B16 and B16/DXR were about 4.7 microM in fresh serum and 215 microM in heat-inactivated serum; the IC50 values for FLC and FLC/DXR were about 12 microM in fresh serum and 70 microM in heat-inactivated serum. Furthermore, experiments with B16 showed that cotreatments with isobutylmethylxanthine (IBMX), a phosphodiesterase inhibitor, or adenosine deaminase (ADA) greatly reduce the activity of 8-Cl-cAMP bringing it to comparable levels in fresh and heat-inactivated serum. These results indicate that the antiproliferative effects of 8-Cl-cAMP may be due principally to metabolites formed by the enzymic activities of the serum, most probably including 8-chloro-adenosine (8-Cl-adenosine), as suggested by other authors. Moreover, the dose-response curves and the IC50 values of the latter compound for the various cell lines were compatible with those observed for 8-Cl-cAMP in fresh serum. Finally, there was no evidence that 8-Cl-cAMP, either in the presence of fresh or heat-inactivated serum, or 8-Cl-adenosine may increase the sensitivity to DXR of the MDR variants of B16 melanoma and Friend leukaemia.
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PMID:Effects of 8-chloro-cyclic adenosine monophosphate on the growth and sensitivity to doxorubicin of multidrug-resistant tumour cell lines. 783 Nov 98

The development of cross-resistance to many natural product anticancer drugs, termed multidrug resistance (MDR), is one of the major reasons why cancer chemotherapy ultimately fails. This type of MDR is often associated with over-expression of the MDR1 gene product, P-glycoprotein (Pgp), a multifunctional drug transporter. The expression of MDR in breast tumors is related to their origination from a tissue that constitutively expresses Pgp as well as to the development of resistance during successive courses of chemotherapy. Therefore, understanding the mechanisms that regulate the transcriptional activation of MDR1 may afford a means of reducing or eliminating MDR. We have found that MDR1 expression can be modulated by type I cAMP-dependent protein kinase (PKA), opening up the possibility of modulating MDR by selectively down-regulating the activity of PKA-dependent transcription factors which upregulate MDR1 expression. High levels of type I PKA occurs in primary breast carcinomas and patients exhibiting this phenotype show decreased survival. The selective type I cAMP-dependent protein kinase (PKA) inhibitors, 8-Cl-cAMP and Rp8-Cl-cAMP[S] may be particularly useful for downregulating PKA-dependent MDR-associated transcription factors, and we have found these compounds to downregulate transient expression of a reporter gene under the control of several MDR1 promoter elements. Thus, investigations of this nature should not only lead to a greater understanding of the mechanisms governing the expression of MDR, but also provide a focus for pharmacologic intervention by a new class of inhibitors.
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PMID:Transcriptional regulation of multidrug resistance in breast cancer. 788 Nov 4

The tissue distribution of P-glycoprotein (Pgp) and the structurally related cystic fibrosis transmembrane conductance regulator (CFTR) is apparently mutually exclusive, particularly in epithelial; where one protein is expressed the other is not. To study the possible function(s) of Pgp and its potential effects on CFTR expression in epithelia, HT-29 colon adenocarcinoma cells, which constitutively express CFTR, were pharmacologically adapted to express the classical multidrug resistance (MDR) phenotype (Pgp+). Concomitant with the appearance of Pgp and MDR phenotype (drug resistance, reduced drug accumulation and increased drug efflux), CFTR levels and cAMP-stimulated Cl conductances were markedly decreased compared to wild-type HT-29 (Pgp-) cells (as shown using the whole cell patch clamp technique). Removal of drug pressure led to the gradual decrease in Pgp levels and MDR phenotype, as evidenced by increased rhodamine 123 accumulation (Pgp-Rev). Concomitantly, CFTR levels and cAMP-stimulated Cl- conductances increased. The cell responses of Pgp/Rev cells were heterogeneous with respect to both Pgp and CFTR functions. We also studied the possible contribution to Pgp to hypotonically activated (HCS) ion conductances. K+ and Cl- effluxes from Pgp- cells were markedly increased by HCS. This increase was twice as high as that induced by the cation ionophore gramicidin; it was blocked by the Cl- channel blocker DIDS (4,4'-disothiocyano-2,2'-disulfonic stilbene) and required extracellular Ca2+. In Pgp+ cells, the HCS-induced fluxes were not significantly different from those of Pgp- cells. Verapamil (10 microM), which caused 80% reversal of Pgp-associated drug extrusion, failed to inhibit the HCS-evoked Cl- efflux of Pgp+ cells. Similarly, HCS increased Cl- conductance to the same extent in Pgp-, Pgp+ and Pgp-Rev cells. Verapamil (100 microM), but not 1,9-dideoxyforskolin (50 and 100 microM), partially inhibited the HCS-evoked whole cell current (WCC) in all three lines. Since the inhibition by verapamil was not detected in the presence of the K+ channel blocker Ba2+ (3 mM), it is suggested that verapamil affects K+ and not Cl- conductance. We conclude that hypotonically activated Cl- and K+ conductances are similar in HT-29 cells irrespective of Pgp expression. Expression of high levels of Pgp in HT-29 cells confers no physiologically significant capacity for cell volume regulation.
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PMID:Effects of P-glycoprotein expression on cyclic AMP and volume-activated ion fluxes and conductances in HT-29 colon adenocarcinoma cells. 796 23

The ability of 1,9-dideoxyforskolin (DDF), 1-deoxyforskolin (DF) and forskolin to modulate cellular sensitivity to vinblastine (VBL) was examined in drug-sensitive parental KB-3-1 cells and a multidrug-resistant subline, KB-GRC1, derived by transfection of mdr1. Fifty microM DF and forskolin enhanced the 1 h uptake of VBL by 8.0 +/- 0.7 (s.d.) and 4.7 +/- 2.5-fold, respectively, with 50 microM DDF producing a 13.6 +/- 1.9-fold increase. The greater effect of DDF relative to forskolin indicated that the effect was independent of activation of cAMP, and this was supported by a lack of effect of dibutyryl cAMP on the uptake. The effect of these agents on uptake were < or = 1.4-fold in KB-3-1 cells. DDF selectively inhibited initial efflux in cells expressing a functional P-glycoprotein (PGP), but both forskolin and DDF inhibited the terminal phase of efflux irrespective of PGP expression. Neither agent affected membrane permeability of polarisation and forskolin did not enhance the uptake of VBL in protein-free liposomes. At a non-toxic concentration of 20 microM, DDF and forskolin decreased the IC50 of VBL from 18.9 to 2.7 and 13 nM in KB-GRC1 cells, respectively, and DDF acted synergistically with VBL as shown by median effect analysis [combination index = 0.20 +/- 0.05 (s.d.)]. In contrast, these diterpenes did not affect VBL sensitivity in KB-3-1 cells. These results indicate that the diterpenes modulate VBL sensitivity predominantly by inhibiting PGP-mediated efflux activity.
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PMID:Selective modulation of vinblastine sensitivity by 1,9-dideoxyforskolin and related diterpenes in multidrug resistant tumour cells. 809 75

8-Chloro-cyclic AMP (8-Cl-cAMP) produces growth-inhibitory and differentiating activity in the promyelocytic leukemia cell line HL-60. Adriamycin (ADR)-resistant HL-60 (HL-60/AR) cells exhibit the multidrug-resistant phenotype but do not express the mdr1 gene product P-glycoprotein. To explore potential signaling processes that may be involved in this atypical form of drug resistance, 8-Cl-cAMP was used as a modulator of the cAMP second messenger signal transduction pathway. Treatment for 48 hr with a 10% inhibitory concentration of 8-Cl-cAMP potentiated ADR cytotoxicity 14-fold in HL-60/AR cells but not in the parental cell line. 8-Cl-cAMP was stable to hydrolysis in the medium after 48 hr and was present intracellularly predominantly as phosphorylated metabolites (70%) and the parent compound (30%). No difference occurred in ADR accumulation in HL-60/AR cells after treatment with 8-Cl-cAMP. Accompanying the 8-Cl-cAMP-mediated increase in ADR cytotoxicity in HL-60/AR cells was a reduction in the cytosolic type I cAMP-dependent protein kinase (PKA) and disappearance of the nuclear PKA holoenzyme. Coincident with these changes in drug-resistant cells was a marked reduction in the DNA-binding activity of the cAMP response element-binding protein to levels equivalent to those in sensitive cells. This effect appears to result from reduced phosphorylation of the cAMP response element-binding protein. These results suggest that the potentiation by 8-Cl-cAMP of ADR cytotoxicity in HL-60/AR cells occurs through down-regulation of nuclear type I PKA and cAMP response element-binding factors whose activities are regulated by PKA.
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PMID:Reversal of resistance to adriamycin by 8-chloro-cyclic AMP in adriamycin-resistant HL-60 leukemia cells is associated with reduction of type I cyclic AMP-dependent protein kinase and cyclic AMP response element-binding protein DNA-binding activities. 838 2

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