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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)
Cross-resistance to anticancer drugs, termed multidrug resistance (mdr), has been functionally associated with the expression of a plasma membrane energy-dependent efflux pump, termed
P-glycoprotein
, the product of the mdr1 gene. When MCF-7 breast carcinoma cells were transfected with the human mdr1 gene (BC-19 cells), they expressed levels of
P-glycoprotein
equivalent to those of cells selected for resistance to doxorubicin (MCF-7/ADR) but exhibited 10- to 50-fold less resistance to doxorubicin and vinblastine. We have now demonstrated that when BC-19 cells were stably transfected with protein kinase C alpha (
PKC
alpha), resistance to doxorubicin and vinblastine was increased; wild-type MCF-7 cells transfected with
PKC
alpha did not exhibit any change in drug resistance. Increased resistance in
PKC
alpha-transfected BC-19 cells was associated with enhanced
PKC
activity and phosphorylation of
P-glycoprotein
and decreased drug accumulation. The
PKC
activator, phorbol dibutyrate, further increased resistance to doxorubicin and stimulated
P-glycoprotein
phosphorylation. These results demonstrate that transfection of
P-glycoprotein
-expressing cells with
PKC
resulted in increased mdr and that
PKC
may have served as an important modulator of this process.
...
PMID:Transfection with protein kinase C alpha confers increased multidrug resistance to MCF-7 cells expressing P-glycoprotein. 167 75
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.
...
PMID:Reversal of doxorubicin resistance by hydrophobic, but not hydrophilic, forskolins. 168 37
The effects of N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide (H-8) and 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7) on the growth of P388 and its multidrug-resistant (MDR) variants were examined with the objective of assessing the possible changes in cyclic nucleotide-dependent protein kinases and
protein kinase C
-mediated pathways associated with MDR. H-8, an inhibitor of cyclic nucleotide-dependent protein kinases, inhibited the growth of the parental P388 murine leukaemic cells, but not that of MDR variants up to 200 microM. However the growth of both drug-sensitive and resistant cell lines were uniformly inhibited by H-7. Both the cytotoxic and cytokinetic results revealed that the growth-inhibition by H-8 of P388 cells is mainly due to a blockade of cell-cycle progression rather than due to a killing of cells. The degree of resistance to H-8 was directly proportional to their extent of resistance to vincristine, adriamycin, and 4'-demethylepipodophyllotoxin-9-(4,6-O-ethylidene)-beta-D-gluco pyr anoside (VP-16) and to that of the expression of
P-glycoprotein
. These findings raised the possibility that
P-glycoprotein
might play a role in the cross-resistance to H-8. To test the hypothesis, we examined the effect of H-8 on the binding of 3H-vincristine to membrane fraction isolated from P388/VCR-600 cells and on the enhancement of cytotoxicity to anticancer drugs in MDR cells. H-8 did not have any influences on these reactions. Thus, the cross-resistance to H-8 may be mediated through a mechanism different from an overexpression of
P-glycoprotein
.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Differential growth inhibition of isoquinolinesulfonamides H-8 and H-7 towards multidrug-resistant P388 murine leukaemia cells. 168 8
The glycoproteins on the surface of HL-60/S wild-type, drug-sensitive human leukemia cells and HL-60/AR anthracycline-resistant cells which do not overexpress the
P-glycoprotein
, were characterized by labeling with [35S]-methionine, NaB[3H4], phosphorus 32, or sodium iodide I 125. HL-60/S and HL-60/AR cell lysates and membrane fractions tagged with [35S]-methionine or phosphorus 32 showed no significant differences in their protein patterns as analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and by autoradiography. HL-60/S cells labeled with NaB[3H4] yielded glycoproteins that were smeared predominantly in the molecular-weight range of 210,000 and 160,000 Da, with pI values ranging between pH 4 and pH 4.4. In contrast, NaB[3H4]-labeled HL-60/AR cells showed 7-8 discrete glycoproteins within a molecular-weight range of 170,000 and 140,000 Da, with pI values also ranging between pH 4 and pH 4.4. In addition, [3H]-glucosamine incorporation into HL-60/S and HL-60/AR cells revealed that the latter showed lower uptake of [3H]-glucosamine than did the former. Following treatment with tunicamycin, [3H]-glucosamine uptake in HL-60/S cells decreased, whereas that in HL-60/AR cells remained unchanged. Surface-membrane radioiodination of HL-60/S and HL-60/AR cells showed two distinct protein electrophoretic patterns, with differences being observed in both the high-(220-95 kDa) and low-molecular-weight ranges (21 kDa). Flow cytometric analysis of HL-60/S and HL-60/AR cells using myeloid and lymphoid antigen-specific antibodies demonstrated no antigenic differences between HL-60/S and HL-60/AR cells. HL-60/S cells incubated in the presence of tunicamycin, an inhibitor of N-linked glycosylation, or the
protein kinase C
agonist phorbol 12-myristate 13-acetate (PMA) developed a glycoprotein pattern similar to that observed in HL-60/AR cells. In addition, tunicamycin treatment of HL-60/S cells decreased daunorubicin (DNR) retention and altered its intracellular distribution as compared with that in HL-60/AR cells. These data indicate that HL-60/AR cells do not possess either de novo or amplified high-molecular-weight surface-membrane proteins; instead, existing proteins are hypoglycosylated. These results also show that HL-60/AR cells exhibit the multidrug-resistant phenotype in association with altered membrane glycoproteins of both high (220-95 kDa) and low molecular weight (21 kDa), but without overexpression of the
P-glycoprotein
. Furthermore, in HL-60/S cells, the multidrug-resistant phenotype is partially inducible by inhibition of N-linked glycosylation of cell-surface proteins.
...
PMID:Membrane glycoprotein changes associated with anthracycline resistance in HL-60 cells. 171 35
Cells containing increased levels of the membrane phosphoprotein
P-glycoprotein
exhibit a multidrug-resistant phenotype. In the present study we have analyzed protein kinases capable of phosphorylating
P-glycoprotein
in membranes of HL60 cells isolated for resistance to vincristine. Analysis of this system demonstrates that in isolated membranes the protein kinase inhibitor staurosporine greatly reduces
P-glycoprotein
phosphorylation. In contrast, the kinase inhibitor H-7 does not affect this reaction. Fractionation of solubilized membrane proteins from sensitive and resistant cells on DEAE-cellulose reveals a major protein kinase (PK-1) which exhibits optimal activity in the presence of Mn2+ and histone H1. This enzyme fraction does not contain detectable levels of
protein kinase C
or cAMP-dependent protein kinase. PK-1 phosphorylation of two endogenous proteins is, however, greatly enhanced in the presence of phosphatidylserine or phosphatidyl-inositol. In reaction mixtures containing Mg2+ or Mn2+ in the absence of phospholipid, PK-1 from resistant cells phosphorylates an endogenous protein of 180 kilodaltons (P180), which exhibits an electrophoretic mobility identical to
P-glycoprotein
. In parallel experiments with PK-1 from sensitive cells there is no detectable phosphorylation of a P180 protein. P180 phosphorylated by PK-1 from resistant cells is immunoprecipitated by antibody against
P-glycoprotein
. Additional studies demonstrate that PK-1 is capable of phosphorylating specific synthetic peptides which correspond to the sequence of
P-glycoprotein
. Peptide phosphorylation occurs at both serine and threonine residues. These studies thus identify a novel membrane-associated protein kinase in HL60 cells which is capable of phosphorylating
P-glycoprotein
. This enzyme may have an important role in regulating levels of multidrug resistance.
...
PMID:Characterization of a membrane-associated protein kinase of multidrug-resistant HL60 cells which phosphorylates P-glycoprotein. 196 66
We have previously shown that phenothiazines sensitize multidrug resistant (MDR) cells to chemotherapeutic drugs in a manner related to specific structural features, and have identified structurally related thioxanthenes with increased anti-MDR activity. We have now studied the structure-activity relationships of 16 thioxanthenes in the human breast cancer line MCF-7 AdrR. trans-Thioxanthene stereoisomers were 2- to 7-fold more potent than cis-thioxanthenes for antagonizing MDR. The most potent thioxanthenes possessed a halogenated tricyclic ring connected by a 3-carbon alkyl bridge to a piperazinyl or piperadinyl side group. The chemosensitizing effects of the lead compound, trans-flupenthixol, its stereoisomer cis-flupenthixol, its phenothiazine homologue fluphenazine, and the calcium channel blocker verapamil, were further studied in a series of sensitive and MDR cell lines. trans-Flupenthixol caused a greater reversal of cellular resistance to doxorubicin, vinblastine, vincristine, and colchicine in MCF-7 AdrR, KB-V1, and P388/DOX MDR cells than the other chemosensitizers. In particular, trans-flupenthixol was 2- to 3-fold more potent for reversing MDR than equimolar concentrations of verapamil. Furthermore, trans-flupenthixol fully reversed resistance to doxorubicin, vincristine, and colchicine in MDR MCF-7 and NIH 3T3 cells transfected with the mdr1 gene. None of these agents altered MDR in a non-
P-glycoprotein
expressing MCF-7 cell line selected with mitoxantrone, nor in any of the parental cell lines. The stereoselective antagonism of the flupenthixol isomers on several putative cellular targets was studied to explore the mechanism of their chemosensitizing activity. cis- and trans-flupenthixol were equally active inhibitors of
protein kinase C
and calmodulin. Both cis- and trans-flupenthixol were also potent inhibitors of [3H]azidopine binding to
P-glycoprotein
. The apparent lack of clinical toxicity of trans-flupenthixol makes it an attractive drug for possible use in the modulation of tumor resistance in vivo if appropriate tissue concentrations can be achieved.
...
PMID:Cellular and biochemical characterization of thioxanthenes for reversal of multidrug resistance in human and murine cell lines. 196 58
Studies were undertaken to identify the protein kinase(s) responsible for
P-glycoprotein
phosphorylation in multidrug-resistant (KB-V1) human carcinoma cells and to elucidate the functional role of phosphorylation.
P-glycoprotein
migrated on sodium dodecyl sulfate gels with apparent Mr 150,000 and is termed P150. When KB-V1 membrane vesicles were incubated with [gamma-32P] ATP, P150 was phosphorylated by an endogenous kinase that exhibited properties of membrane-inserted
protein kinase C
(
PKC
). Both membrane-bound P150 and purified P150 served as effective substrates for highly purified rat brain
PKC
which incorporated approximately 0.6 mol of phosphate/mol of P150. Enzyme assays showed that KB-V1 cells exhibit 4-fold higher
PKC
activity compared with the drug-sensitive KB-3 cell line. The basal phosphorylation of P150 observed in 32P-labeled cells was increased 2-fold by phorbol ester (PMA) treatment and reduced 30% by treatment with the isoquinolinsulfonamide H-7. Phosphopeptide maps of partially digested P150, phosphorylated either in vitro with
PKC
or in intact 32P-labeled control or PMA-stimulated cells, were indistinguishable from one another. Drug accumulation assays revealed that PMA treatment of KB-V1 cells significantly reduced [3H]vinblastine accumulation induced by verapamil or by tetrandrine. The results suggest that
PKC
is primarily responsible for P150 phosphorylation in KB-V1 cells and that phosphorylation may play a modulatory role in the drug transport process.
...
PMID:Protein kinase C phosphorylates P-glycoprotein in multidrug resistant human KB carcinoma cells. 197 May 71
Treatment of drug-resistant human KB carcinoma cells (KB-V1) with 0.2 microM phorbol 12-myristate 13-acetate (PMA) resulted in increases of 4-fold in both membrane-associated
protein kinase C
activity and phosphorylation of
P-glycoprotein
. The response was essentially complete after 30 min and was relatively stable, since both of these parameters remained elevated above basal levels in cells exposed to PMA for 24 hours. In contrast, long-term PMA treatment of drug-sensitive KB-3 cells caused complete depletion of
protein kinase C
. The rate of accumulation of [3H]vinblastine in KB-V1 cells was 0.8 +/- 0.1 pmol/mg/30 min in the absence, and 1.9 +/- 0.2 pmol/mg/30 min in the presence, of 20 microM verapamil. Preincubation of cells with PMA resulted in a time-dependent decrease, up to 60% after 24 hours, in both of these values. These results suggest that
protein kinase C
mediated phosphorylation stimulates the drug transport activity of
P-glycoprotein
.
...
PMID:Correlation of protein kinase C translocation, P-glycoprotein phosphorylation and reduced drug accumulation in multidrug resistant human KB cells. 197 16
Hexamethylene bisacetamide (HMBA) is a potent inducer of differentiation of murine erythroleukemia cells (MELC). Commitment, the irreversible initiation of the program of terminal-cell differentiation, is first detected in HMBA-sensitive DS19-SC9 MELC in culture after 10 to 12 h of exposure to HMBA. Vincristine (VC)-resistant MELC derived from the DS19-SC9 MELC line display increased sensitivity to HMBA and become committed with little or no latent period. In the present study, we showed that the MELC line R1, which is resistant to HMBA-mediated differentiation, became sensitive to inducer if selected for a low level of VC resistance (less than 10 ng of VC per ml). Four independently derived VC-resistant cell lines from HMBA-resistant R1 cells, designated R1[VCR]a to R1[VCR]d, acquired sensitivity to HMBA and the accelerated kinetics of commitment that are characteristic of VC-resistant MELC derived from the parental DS19-SC9 cells. The calcium channel blocker verapamil suppresses the VC resistance of R1[VCR] cells but does not alter the accelerated response to HMBA. In R1[VCR] cells there was no detectable increase in the level of the 140-kilodalton
P-glycoprotein
. Transient inhibition of protein synthesis during the latent period delays inducer-mediated commitment of VC-sensitive DS19-SC9 MELC but does not alter the accelerated commitment kinetics of R1[VCR]a cells. Previously, we have reported evidence that protein kinase C beta (
PKC
beta) plays a role in HMBA-induced MELC differentiation and that compared with DS19-SC9 cells, R1 cells have a relatively low level and R1[VCR]a cells have a high level of
PKC
beta. These findings suggest that (i) acquisition of VC resistance overcomes the block acquired by R1 cells to HMBA-mediated differentiation; (ii) the accelerated kinetics of HMBA-induced commitment of VC-resistant MELC is not dependent on the verapamil-sensitive transport channel that is responsible, at least in part, for resistance to VC; (iii) in VC-resistant MELC, there is constitutive expression or accumulation of a protein required for HMBA-induced differentiation; and (iv) an elevated level of
PKC
beta activity may play a role in the altered response of R1[VCR] and other VC-resistant MELC to HMBA.
...
PMID:Conversion of differentiation inducer resistance to differentiation inducer sensitivity in erythroleukemia cells. 197 44
Among the many phenotypic characteristics of multidrug resistance (MDR), the presence of
P-glycoprotein
is nearly always observed, and it appears that the plasma membrane of the multidrug resistant cell is integrally involved in controlling drug resistance. Another membrane-associated protein kinase,
protein kinase C
(
PKC
), has been shown to regulate the flow of information to the cell interior and to control the efflux of a number of different compounds. We therefore initiated a study of
PKC
and MDR. We found that multidrug resistant sublines from both mouse sarcoma 180 and human KB lines exhibited 80-90% increases in basal
PKC
activity. The mechanism of the increase appears to be quite different in the two cell lines. The human KB cells overexpress the alpha isozyme of
PKC
, commensurate with the increase in alpha-
PKC
protein, whereas the mouse cells do not overexpress alpha-mRNA but increase alpha-
PKC
protein. Furthermore, it appears that
PKC
activity plays a functional role in drug resistance, since inhibition of endogenous
PKC
activity by staurosporine resulted in decreased resistance to Adriamycin. We also found that phosphorylation of MDR cell membrane vesicles by purified
PKC
, followed by immunoprecipitation of
P-glycoprotein
with monoclonal antibody C219, resulted in a level of phosphorylation of
P-glycoprotein
that was greater than the endogenous phosphorylation level. The data presented indicate that MDR cells of diverse species exhibited enhanced
PKC
activity but that the mechanisms were different. The increased kinase activity may have biological relevance to MDR since
PKC
appears to be coupled to
P-glycoprotein
function.
...
PMID:Human multidrug resistant KB cells overexpress protein kinase C: involvement in drug resistance. 257 53
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