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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)
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
Cells expressing elevated levels of the membrane
phosphoprotein
P-glycoprotein
exhibit a multidrug resistance phenotype. Studies involving protein kinase activators and inhibitors have implied that covalent modification of
P-glycoprotein
by phosphorylation may modulate its biological activity as a multidrug transporter. Most of these reagents, however, have additional mechanisms of action and may alter drug accumulation within multidrug resistant cells independent of, or in addition to, their effects on the state of phosphorylation of
P-glycoprotein
. The protein kinase(s) responsible for
P-glycoprotein
phosphorylation has(ve) not been unambiguously identified, although several possible candidates have been suggested. Recent biochemical analyses demonstrate that the major sites of phosphorylation are clustered within the linker region that connects the two homologous halves of
P-glycoprotein
. Mutational analyses have been initiated to confirm this finding. Preliminary data obtained from phosphorylation- and dephosphorylation-defective mutants suggest that phosphorylation of
P-glycoprotein
is not essential to confer multidrug resistance.
...
PMID:Effects of phosphorylation of P-glycoprotein on multidrug resistance. 762 52
P-glycoprotein
(
P-gp
) is thought to function as a drug efflux pump in multidrug resistant (MDR) cells. The functional form of
P-gp
in its native state is not known. Previous results from radiation target size analysis have suggested that
P-gp
occurs as dimers in MDR cell plasma membranes [Boscoboinik et al. (1990) Biochim. Biophys. Acta 1027, 225-228]. In this study, we used sucrose gradient velocity sedimentation to determine if
P-gp
oligomers could be retrieved from detergent extracts of hamster and human MDR cell lines. The proportion of
P-gp
recovered as higher order oligomers was dependent on the detergents used for solubilization of the cells. When a detergent such as CHAPS was used, 50% or more of the
P-gp
sedimented as higher order oligomers. In contrast, in the presence of SDS, only monomers were retrieved, but naturally occurring oligomers could be preserved if the cells were treated with a cross-linker prior to detergent solubilization. The oligomers and monomers were both able to bind the photoactive analog of ATP (8-azido[alpha-32P]ATP) or the drug [3H]azidopine in membrane preparations.
P-gp
is a
phosphoprotein
, and its phosphorylated state is thought to be important for function. When MDR cells were labeled with [32P]orthophosphate in vivo, we observed that the monomer and dimer were more highly phosphorylated than the larger oligomers, suggesting that these different forms of
P-gp
may be functionally distinct. The assembly of oligomers appears to occur in an early bisynthetic compartment, and asparagine-linked glycosylation is not required for their formation. Our findings indicate that oligomers of
P-gp
exist in MDR cells and raise the possibility that the dynamics of oligomer formation and dissociation may be important in the mechanism of action of
P-gp
.
...
PMID:Detection of oligomeric and monomeric forms of P-glycoprotein in multidrug resistant cells. 790 29
Dexniguldipine hydrochloride (DNIG) is a potent antineoplastic agent with well-documented anti-(protein kinase C) activity and an ability to reverse multidrug resistance. Given the importance of protein kinase C (PKC) activity in proliferation and differentiation, we examined the effect of DNIG on several parameters of Friend erythroleukemia cell (FELC) activity. Particular attention was paid to proliferation, hexamethylene-bisacetamide-(HMBA)-induced differentiation, nuclear localization of protein kinase C, and nuclear protein phosphorylation.
P-glycoprotein
expression was also followed as an indicator of changes in multidrug resistance. At 2.5 microM, DNIG caused a significant decrease in the rate of FELC proliferation, while maintaining a cellular viability of greater than 80%, whether exposure to the drug was continuous over 96 h or took the form of a 6-h pulse/chase. DNA synthesis was decreased in cells exposed to DNIG for 20 h. Flow cytometry showed a marked increase in the percentage of cells in S phase of the cell cycle. Phosphorylation studies revealed decreased phosphorylation of two nuclear proteins (80 kDa and 47 kDa) following a 4-h exposure to the drug. HMBA-induced differentiation was significantly inhibited with continuous exposure to DNIG, and this effect appears to be a pre-commitment one, as 6-h pulse/chase exposures also resulted in inhibition of differentiation. Cells induced to differentiate with HMBA also demonstrated a decrease in the quantity of the 80-kDa
phosphoprotein
. Western blotting revealed that, even in the face of decreased phosphorylation, exposure to this PKC inhibitor resulted in an increase in the amount of nuclear PKC alpha. Finally, levels of
P-glycoprotein
were decreased in the presence of this drug. Our work identifies several effects of the PKC inhibitor DNIG on FELC and suggests several roles for PKC in regulating FELC proliferation and differentiation. Additionally, these results suggest that this PKC inhibitor may increase the effect of other chemotherapeutic drugs, particularly S-phase-specific ones, by increasing the length of S phase and decreasing multidrug resistance. The possibility of combination therapy with DNIG and other antineoplastic agents should be investigated further in light of these findings.
...
PMID:Dexniguldipine hydrochloride, a protein-kinase-C-specific inhibitor, affects the cell cycle, differentiation, P-glycoprotein levels, and nuclear protein phosphorylation in Friend erythroleukemia cells. 869 46
We have investigated the roles of dopamine and cAMP-regulated
phosphoprotein
(DARPP-32) in the multidrug resistance (MDR) of gastric cancer cells and the possible underlying mechanisms. The up-regulation of DARPP-32 was found to significantly enhance the sensitivity of cells of human adriamycin (ADR)-resistant gastric adenocarcinoma cell line SGC7901/ADR to vincristine, ADR, 5-fludrouracil and cisplatin. The results of an in vivo drug sensitivity assay confirmed that DARPP-32 may play a specific role in the MDR of gastric cancer. DARPP-32 significantly down-regulated the expression of
P-glycoprotein
and zinc ribbon domain-containing 1 (ZNRD1), but did not alter the expression of MDR-associated protein or glutathione-S-transferase. The up-regulation of ZNRD1 significantly inhibited the drug sensitivity of gastric cancer cells over-expressing DARPP-32, indicating that ZNRD1 may be important in the DARPP-32-mediated MDR of gastric cancer. DARPP-32 was also able to significantly decrease the anti-apoptotic activity of SGC7901/ADR cells. Further study of the biological functions of DARPP-32 may be helpful for understanding the mechanisms of MDR of gastric cancer cells and developing possible strategies to treat gastric cancer.
...
PMID:Reversal of multidrug resistance of adriamycin-resistant gastric adenocarcinoma cells through the up-regulation of DARPP-32. 1749 6
The development of resistance to anticancer agents during treatment is a major obstacle in the chemotherapy of cancer. Cells expressing high levels of the
P-glycoprotein
exhibit a multidrug resistance phenotype. The
P-glycoprotein
is a membrane
phosphoprotein
which serves as a drug efflux pump to reduce intracellular drug accumulation, and hence the cytotoxicity of anticancer drugs. Several studies have shown that protein kinase activators and inhibitors may modulate the biological activity of
P-glycoprotein
through covalent modification by phosphorylation. Most of these drugs may have additional mechanisms of action and may alter drug accumulation within multidrug resistant cells with or without their effects on phosphorylation of
P-glycoprotein
. In addition, transcriptional regulation of MDR 1 gene has been found to be regulated by protein kinase A type I and protein kinase C. Therefore, these kinases may be important candidates in studies of the reversal of multidrug resistance and hence in enhancing the efficacy of anticancer drugs.
...
PMID:Multidrug resistance in cancer (review). 2154 90
