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Symptom
Drug
Enzyme
Compound
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Target Concepts:
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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)
Multidrug resistance (MDR) is the phenomenon in which cells become resistant to several classes of structurally and functionally diverse drugs after exposure to a single cytotoxic agent. One form of MDR is associated with the overexpression of a large plasma membrane phosphoglycoprotein,
P-glycoprotein
, which acts as an energy-requiring drug transport pump.
Protein kinase C
may participate in MDR through posttranslational modification of
P-glycoprotein
. The purpose of this study is to critically evaluate
P-glycoprotein
as a substrate for protein kinase C and to determine whether phosphorylation leads to changes in drug transport.
Protein kinase C
from rat brain phosphorylated immunoprecipitated
P-glycoprotein
in a manner dependent on the activation of the exogenous kinase. Phorbol 12-myristate 13-acetate (PMA) increased the phosphorylation of
P-glycoprotein
6-fold and selectively decreased the accumulation of vinblastine in resistant MCF-7/AdrR cells. PMA selectively decreased the cellular association of vinblastine with MDR cells after brief periods of incubation, but only after critical concentrations of drug were achieved. The actions of PMA did not require new synthesis of
P-glycoprotein
. PMA had similar effects in MCF-7/BC-19, a cell line transfected with a cDNA for
P-glycoprotein
. Staurosporine inhibited the effects of PMA on the phosphorylation of
P-glycoprotein
and on the accumulation of vinblastine. These data demonstrated that immunoprecipitated
P-glycoprotein
can be a substrate for protein kinase C, and that phosphorylation of the transporter is associated with significant changes in drug transport.
...
PMID:Functional role of phosphorylation of the multidrug transporter (P-glycoprotein) by protein kinase C in multidrug-resistant MCF-7 cells. 794 66
The multidrug resistance (MDR) phenotype induces cross-resistance to many chemotherapeutic agents in cancer cells.
Protein kinase C
(
PKC
) has been implicated in the regulation of the MDR phenotype. In order to determine the role of specific
PKC
isoenzymes in regulating the MDR phenotype, the expression and activity of
PKC
isoenzymes in the human breast cancer cell line, MCF-7-WT, and an MDR subline, MCF-7-MDR, were examined. The MDR phenotype was associated with a 10-fold increase in calcium-dependent
PKC
activity as well as a 10-fold decrease in calcium-independent activity was due to a selective increase in the activity was due to a selective increase in the expression of
PKC
alpha as determined by Western blot analysis and hydroxylapatite chromatography. This increase in expression of
PKC
alpha was regulated at the message level as demonstrated by Northern blot analysis. The decrease in calcium-independent activity was caused by a decrease in the expression of PCK delta and epsilon. The significance of the increase in
PKC
alpha expression was then demonstrated by a commensurate 11-fold increase in the basal and stimulated phosphorylation of the myristolated alanine-rich C kinase substrate. Phosphorylation of
P-glycoprotein
, the cellular mediator of the MDR phenotype, was increased > 20-fold in the unstimulated MCF-7-MDR cell line and its phosphorylation was further increased 2-fold in response to phorbol 12-myristate 13-acetate. These changes paralleled the increases in
P-glycoprotein
pump function and the MDR phenotype underscoring the role for
PKC
alpha in regulating
P-glycoprotein
phosphorylation and function.
...
PMID:Selective regulation of expression of protein kinase C (PKC) isoenzymes in multidrug-resistant MCF-7 cells. Functional significance of enhanced expression of PKC alpha. 809 47
The predominant characteristics of multidrug resistant (MDR) cancer cells are broad spectrum resistance to chemotherapeutic agents and a pronounced defect in intracellular accumulation of the drugs, in association with overexpression of the drug efflux pump
P-glycoprotein
.
Protein kinase C
(
PKC
) phosphorylates the linker region of
P-glycoprotein
. Evidence has been presented that the isozyme PKC-alpha may contribute to the drug resistance phenotype of human breast cancer MCF7-MDR cells, PKC-alpha is markedly overexpressed in MCF7-MDR cells, and artificial overexpression of PKC-alpha in MCF7 constructs that overexpress
P-glycoprotein
significantly enhances the MDR phenotype of the cells in association with increased
P-glycoprotein
phosphorylation. Verapamil, cyclosporin A, and a number of other agents that compete with cytotoxic drugs for binding sites on
P-glycoprotein
can potently reverse MDR, but this is accompanied by severe toxicity in vivo. In this report, we demonstrate that an N-myristoylated peptide that contains a sequence corresponding to the pseudosubstrate region of PKC-alpha (P1) partially reverses multidrug resistance in MCF7-MDR cells by a novel mechanism that involves inhibition of PKC-alpha. P1 and two related
PKC
inhibitory N-myristoylated peptides restored intracellular accumulation of chemotherapeutic drugs in association with inhibition of the phosphorylation of three PKC-alpha substrates in MCF7-MDR cells: PKC-alpha, Raf-1 kinase, and
P-glycoprotein
. A fourth N-myristoylated peptide substrate analog of
PKC
, P7, did not affect drug accumulation in the MCF7-MDR cells and failed to inhibit the phosphorylation of the PKC-alpha substrates. The effects of P1 and verapamil on drug accumulation in MCF7-MDR cells were additive. P1 did not affect
P-glycoprotein
expression. MCF7-MDR cells were not cross-resistant to P1, which suggest that the peptide was not transported by
P-glycoprotein
. Furthermore, P1 was distinguished from MDR reversal agents such as verapamil and cyclosporin A by its inability to inhibit [3H]azidopine photoaffinity labeling of
P-glycoprotein
. P1 actually increased [3H] azidopine photoaffinity labeling of
P-glycoprotein
in MCF7-MDR cells, providing evidence that the effects of P1 on
P-glycoprotein
in MCF7-MDR cells are not restricted to inhibition of the phosphorylation of the pump. P1 may provide a basis for developing a new generation of MDR reversal agents that function by a novel mechanism that involves inhibition of PKC-alpha-catalyzed
P-glycoprotein
phosphorylation.
...
PMID:Partial reversal of multidrug resistance in human breast cancer cells by an N-myristoylated protein kinase C-alpha pseudosubstrate peptide. 856 66
According to multiple reports, progesterone is not transported by
P-glycoprotein
(Pgp), which mediates multidrug resistance through active drug efflux. However, progesterone has been shown to block Pgp- mediated efflux of other drugs. To extend these observations and to examine the effect of modulating Pgp phosphorylation, the accumulation of progesterone and 14 other steroids in untreated and calphostin C-treated multidrug-resistant human colon carcinoma SW620 Ad300 cells was compared to the accumulation in parental SW620 cells. However, the accumlation of more hydrophilic steroids was reduced by as much as 50%. Progesterone and progesterone-like compounds, however were potent inhibitors of Pgp-mediated vinblastine efflux; increased antagonism correlated with increased steroid hydrophobicity. Treatment with calphostin C, a
PKC
inhibitor which decreases Pgp phosphorylation, increased progesterone efflux, modulated Pgp antagonism by steroids, and inhibited photoaffinity labeling of Pgp by progesterone. These results extend previous observations that Pgp can mediate the transport of, and be antagonized by, a variety of steroids and that these properties vary with both steroid's hydrophobicity and the phosphorylated state of Pgp.
...
PMID:Steroid treatment, accumulation, and antagonism of P-glycoprotein in multidrug-resistant cells. 866 72
We established a daunorubicin (DNR)-resistant cell line derived from human leukemia cell line K562, (K562/D1-9), which also shows multidrug resistance (MDR). K562 cells were cultured with serially increasing concentrations up to 1.0 microM of DNR and then cloned by the limiting dilution method. K562/D1-9 cells were found to be 28 times more resistant to DNR than their its parent cells. Intracellular accumulation of DNR in K562/D1-9 was less than in the wild type, and
P-glycoprotein
(
PGP
) was overexpressed. Both DNR resistance and its intracellular accumulation were partially reversed by addition of verapamil to K562/D1-9 cells, but not to K562 cells. Topoisomerase II (Topo II) activity was decreased in K562/D1-9 cells. In contrast to other drugs, such as doxorubicin and vincristine, verapamil could not reverse drug resistance to VP-16 in the K562/D1-9 cell line, suggesting the importance of Topo II as the target of MDR.
Protein kinase C
(
PKC
) level was higher in K562/D1-9 than in K562. These findings suggested that the mechanism of MDR in this cell line might be multifactorial, including
PGP
, topo II and
PKC
. The K562/D1-9 cell line may be a good model for studying drug resistance in leukemia chemotherapy.
...
PMID:Establishment of a daunorubicin-resistant cell line which shows multi-drug resistance by multifactorial mechanisms. 868 17
Protein kinase C
(
PKC
) comprises a family of related phospholipid-dependent serine/threonine protein kinases.
PKC
has been implicated in the induction and maintenance of the multidrug-resistance (MDR) phenotype but the role of different isozymes is not well understood. We compared the expression and subcellular distribution, and membrane association and down-regulation induced by phorbol esters, of individual
PKC
isozymes in drug-sensitive KB-3 and multidrug-resistant KB-V1 human carcinoma cell lines. Immunoblotting with isozyme-specific antibodies indicated the presence of
PKC
alpha (cytosol only).
PKC
beta (membrane only).
PKC
epsilon (mainly membrane associated) and PKC zeta (both fractions).
PKC
delta and
PKC
gamma were not detected. The expression levels of
PKC
beta.
PKC
epsilon and PKC zeta were unchanged in KB-V1 cells;
PKC
alpha was modestly increased ( approximately 65%) in the resistant cells as further determined by enzyme assay. The cytosolic nature and increased expression of
PKC
alpha were confirmed by immunofluorescent localization studies. Revertant cells, obtained by culturing KB-V1 cells in a drug-free medium, regained drug sensitivity with a loss of
P-glycoprotein
and a concomitant decrease in expression of
PKC
alpha, KB-V1 cells were found to differ markedly from KB-3 cells with respect to the translocation and down-regulation specifically of
PKC
alpha upon exposure to 12-O-tetradecanoyl-1-phorbol-13-acetate (TPA). Treatment with 30 nM TPA for 24 h completely depleted KB-3 cells of
PKC
alpha whereas 1 microM TPA was required to deplete KB-V1 cells of
PKC
alpha. Similar results were obtained when phorbol-12, 13-dibutyrate was used instead of TPA. Defective TPA-mediated down-regulation of
PKC
alpha was also observed in another
PKC
alpha-overexpressing MDR cell line. KB-A1. Importantly, cellular uptake of radiolabeled phorbol ester was similar for both drug-sensitive and MDR cells. Sensitive and resistant cells exhibited similar expression levels of RACK1, a
PKC
-binding protein important in activation-induced translocation. These findings further highlight the importance of
PKC
alpha in the MDR phenotype, and suggest that this isozyme may be expressed in a modified form or be subject to an altered regulation in MDR cells.
...
PMID:Expression, subcellular distribution and response to phorbol esters of protein kinase C (PKC) isozymes in drug-sensitive and multidrug-resistant KB cells evidence for altered regulation of PKC-alpha. 877 28
In this investigation, untreated non-B-type acute lymphoblastic leukemia (ALL) of 104 children was analyzed using immunocytochemistry for expression of protein kinase C, proto-oncogene products (Fos, Jun, Ras) and resistance-related proteins (topoisomerase II,
P-glycoprotein
, glutathione S-transferase-pi, metallothionein, dihydrofolate-reductase, thymidylate-synthase). The aim of the analysis was to find out whether combining those factors with the most important clinical prognostic factor (blast cell count) can improve the prognostic value (relapse-free interval). Univariate analysis shows that protein kinase D (
PKC
), Fos,
P-glycoprotein
(P-170) and glutathione S-transferase-pi (GST-pi) are significant prognostic factors independent of blast cell count (PBC) for the relapse-free intervals of children with ALL. The presence of the proteins Fos,
PKC
, P-170 and GST-pi was not independent within the patient population. The multivariate analysis showed that in combination with PBC and
PKC
, both P-170 and GST-pi have only limited prognostic influence. Combining the factors
PKC
, Fos and GST-pi as a categorical variable showed that this variable is a strong prognostic factor in addition to PBC.
...
PMID:Prognostic value of protein kinase C, proto-oncogene products and resistance-related proteins in newly diagnosed childhood acute lymphoblastic leukemia. 898 47
Protein kinase C
(
PKC
) is an enzyme family with serine/threonine kinase function which is involved in the transduction of signals for cell proliferation and differentiation. The important role played in processes relevant to neoplastic transformation, carcinogenesis and tumor cell invasion renders
PKC
a potentially suitable target for anticancer therapy. Bryostatin 1, a macrocyclic lactone isolated from Bugula nerutina, is a partial
PKC
agonist, and has shown potent antineoplastic properties in vitro and in vivo. Staurosporine, an alkaloid isolated from microbial sources, is ine of the most potent
PKC
inhibitors and has shown high antiproliferative activity in vitro, but poor selectivity. Staurosporine analogs have thus been synthesize with the aim of obtaining more selective
PKC
inhibition; among these, CGP 41251 has shown reduced
PKC
inhibitory activity, but a higher degree of selectivity when assayed for inhibition of different kinases. Several studies indicate a role for
PKC
in the regulation of the multidrug resistance (MDR) phenotype, since several
PKC
inhibitors are able to partially reverse MDR and inhibit
P-glycoprotein
(Pgp) phosphorylation. The MDR phenotype is also associated with variation in
PKC
isoenzyme content, in particular with PKC-alpha overexpression. While adequate
PKC
modulation might offer an attractive concept to modulate MDR, other potential mechanisms of
PKC
interaction with anticancer drugs exist and have been documented, such as the enhancement of chemotherapy-induced apoptosis by safingol, a specific
PKC
inhibitor. Three phase I clinical trials with bryostatin have been completed so far and have shown that myalgia is the dose-limiting toxicity, while some antitumor activity is evident. Safingol is presently undergoing a phase I clinical trial in combination with doxorubicin. While no definitive data are presently available, it appears that safingol plasma levels approach those associated with chemopotentiation in animals and no pharmacokinetic interaction between the two drugs exists. Drugs targeting
PKC
are well work considering for clinical trials, particularly for their potential as modulators of currently available cytotoxic agents.
...
PMID:Protein kinase C: a worthwhile target for anticancer drugs? 914 7
Protein kinase C
-alpha (PKC-alpha) activation is an important contributing factor in human breast cancer MCF-7 MDR cell drug resistance. We recently reported the use of N-myristoylated PKC-alpha pseudosubstrate peptides with potent PKC-alpha inhibitory activity as reversal agents of drug resistance in MCF-7 MDR cells. The peptides potently inhibit phosphorylation of the PKC-alpha substrates
P-glycoprotein
(
P-gp
), raf kinase and PKC-alpha itself in MCF-7 MDR cells in association with a severalfold induction of intracellular uptake of
P-gp
substrate chemotherapeutics and a statistically significant twofold increase in cellular chemosensitivity. We now report that the N-myristoylated PKC-alpha pseudosubstrate peptide N-myristoyl-RFARKGALRQKNV (P3) is not a
P-gp
substrate in MCF-7 MDR cells based on a comparison of the cellular uptake of [125I]-radiolabeled P3 in MCF-7 MDR vs MCF-7 WT cells. The extent of cellular uptake of the radiolabeled peptide in the drug-resistant cell line MCF-7 MDR was either greater than or equivalent to the uptake in the parental drug-sensitive MCF-7 WT cell line over a time course of 30 min to 6 h, and across a peptide concentration range of 25-100 microM. Additionally, treatment of the MCF-7 MDR cells with verapamil (VPL), a known
P-gp
efflux inhibitor, had no effect on the cellular accumulation of radiolabeled P3. Our results provide direct evidence that the N-myristoylated pseudosubstrate peptide is taken up equivalently by drug-sensitive and MDR cancer cells and therefore has potential value as an MDR reversal agent that operates by a novel mechanism.
...
PMID:An N-myristoylated protein kinase C-alpha pseudosubstrate peptide that functions as a multidrug resistance reversal agent in human breast cancer cells is not a P-glycoprotein substrate. 927 25
Multidrug resistance is one of the major obstacles in cancer chemotherapy. In tumor cells, overexpression of the transmembrane
P-glycoprotein
170 (P-gp) is associated with the multidrug resistance phenotype and serves as a drug efflux pump. The activation of P-gp has been suggested to occur at the post-translational level.
Protein kinase C
mediated phosphorylation may be associated with the drug effux mechanism but the overall phosphorylation pathway has not been completely defined. we report the novel finding of an increase in phosphatase 1B (a tyrosine phosphatase) and a decrease in PP1 and PP2A (serine/threonine phosphatases) expression and activity in our series of early (R65) and late (R500) stage adriamycin resistant MCF-7 cells. In addition, we show a decrease in protein kinase A (PKA) activity and an increase in protein kinase C (PKC) in our drug resistant cells. Analyses of PKC isoforms alpha through epsilon revealed that PKCbeta was not expressed and that all other isoforms increased with increasing resistance, except PKCgamma which was detected only in R65 cells. Our findings suggest that in drug resistant cells, there is a pattern consistant with the maintenance of serine and threonine residues in a phosphorylated state.
...
PMID:Differential expression and activity of phosphatases and protein kinases in adriamycin sensitive and resistant human breast cancer MCF-7 cells. 962 6
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