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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)
Drugs that interfere with the action of
P-glycoprotein
(
P-gp
), the membrane efflux pump responsible for multidrug resistance (MDR), should be valuable in the treatment of patients with drug-resistant cancer. We have used one class of drug, the phenothiazines, to study the structural features required for optimum interference with the function of
P-gp
. The structure-activity relationships revealed three important components including the hydrophobicity of the tricyclic ring, the length of the alkyl bridge and the charge on the terminal amino group. Trans-flupenthixol is a lead compound that conforms to these structural requirements and demonstrates significant activity as a sensitizer of MDR cell lines to drugs affected by the MDR phenotype. Based on these data, we have proposed a model for the binding of modulators to
P-gp
and have speculated on the structure of the drug-binding domain. We have developed pre-clinical models of MDR that may help predict clinical activity of chemo-modulators. L1210/VMDRC.06 is a murine lymphocytic leukemia line transformed by a retroviral expression vector containing a full-length cDNA for the human mdr1 gene. K562/VBL1-3 are clones of human myeloid blast cells that were transformed with the same vector. Resistance in these lines is not complicated by changes in the cellular content of glutathione or alterations in topoisomerase II. The transformed L1210 line grows in mice as a slowly proliferating non-metastatic peritoneal implant. Both MDR lines are restored to sensitivity by cyclosporin A or trans-flupenthixol, and the K562 clones are induced to differentiate by hemin. These lines should provide simple, sensitive screens for new drugs for use against cancers expressing
P-gp
. We have proposed a model to explain how the pumping activity of
P-gp
is activated in response to toxic drugs. In this schema, basal activity of
P-gp
is modulated through phosphorylation/dephosphorylation reactions mediated by protein kinase C (PKC) and calcium sensitive phosphatases. In response to the activation of phospholipase C by toxic drugs and the local production of 1,2-diacylglycerol, PKC is translocated to the cell membrane where it phosphorylates
P-gp
. Following the extrusion of drug from the cell membrane, phospholipase C activity returns to baseline, diacylglycerol is metabolized, PKC returns to the cytosol and serine/
threonine
phosphatases dephosphorylate
P-gp
returning it to the basal state.
...
PMID:Rational design and pre-clinical pharmacology of drugs for reversing multidrug resistance. 134 93
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 wished to determine if the two nucleotide-binding domains (NBD) of
P-glycoprotein
are functionally equivalent and interchangeable, and if not, which segments and amino acids are important for proper function of each NBD within the context of the C- or N-terminal P-glycoprotien halves. For this, we constructed and tested the biological activity in yeast and mammalian cells of a series of chimeric mdr3 cDNAs in which discrete domains of the N-terminal NBD (NBD1) were replaced by the homologous segments of the C-terminal NBD (NBD2). Although most NBD1 segments could be replaced without loss of
P-glycoprotein
function, exchange of small segments near the Walker B motif caused a dramatic reduction in Adriamycin, actinomycin D, and colchicine resistance in LR73 cells, as well as in FK506 resistance and STE6 complementation in yeast. Site-directed mutagenesis identified amino acid positions 522-525 (ERGA-->DKGT) and 578 (
Thr
-->Cys) as essential for proper function of NBD1 in the context of the N-terminal half
P-glycoprotein
. In addition, the observed phenotype of the mutants (altered drug resistance profile) suggests that these residues may participate directly or indirectly in substrate interactions and are possibly implicated in signal transduction from NBDs to transmembrane domains, the primary sites of drug binding in
P-glycoprotein
.
...
PMID:Functional dissection of P-glycoprotein nucleotide-binding domains in chimeric and mutant proteins. Modulation of drug resistance profiles. 761 12
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.
...
PMID:Identification of a 170 kDa membrane kinase with increased activity in KB-V1 multidrug resistant cells. 769 26
The multidrug resistance
P-glycoprotein
(Pgp) transports hydrophobic drugs out of cells and has been recently associated with volume-activated chloride channels. Activation of these channels by hypotonic swelling was seen to be prevented by protein kinase C (PKC) in cells expressing high levels of Pgp by transfection. HeLa cells possess equivalent chloride currents yet they are not regulated by PKC. HeLa cells do not express Pgp as assessed by Western blotting. Following transfection of HeLa cells with cDNA encoding for Pgp, PKC-dependent suppression of volume activated chloride currents was observed. PKC regulation in transiently transfected HeLa cells was abolished by alanine replacement of the serine/
threonine
residues in the consensus phosphorylation sites of the linker region of Pgp. Replacement of these residues with glutamate, to mimic the effect of phosphorylation, mimicked the effects of PKC on channel activation. These results indicate that overexpression of Pgp confers PKC-regulation of endogenous volume-activated chloride channels. More generally they favour a model in which Pgp acts as a regulator of volume-activated chloride channels.
...
PMID:Regulation of volume activated chloride channels by protein kinase C-mediated phosphorylation of P-glycoprotein. 775 61
The multidrug resistance
P-glycoprotein
(
P-gp
), which transports hydrophobic drugs out of cells, is also associated with volume-activated chloride currents. It is not yet clear whether
P-gp
is a channel itself, or whether it is a channel regulator. Activation of chloride currents by hypotonicity in cells expressing
P-gp
was shown to be regulated by protein kinase C (PKC). HeLa cells exhibited volume-activated chloride currents indistinguishable from those obtained in
P-gp
-expressing cells except that they were insensitive to PKC. HeLa cells did not express detectable
P-gp
but, following transient transfection with cDNA encoding
P-gp
, the volume-activated channels acquired PKC regulation. PKC regulation was abolished when serine/
threonine
residues in the consensus phosphorylation sites of the linker region of
P-gp
were replaced with alanine. Replacement of these residues with glutamate, in order to mimic the charge of the phosphorylated protein, also mimicked the effects of PKC on channel activation. These data demonstrate that PKC-mediated phosphorylation of
P-gp
regulates the activity of an endogenous chloride channel and thus indicate that
P-gp
is a channel regulator.
...
PMID:Protein kinase C-mediated phosphorylation of the human multidrug resistance P-glycoprotein regulates cell volume-activated chloride channels. 782 97
A
P-glycoprotein
homologue has been previously identified in Plasmodium falciparum and was termed PGH 1. This paper describes studies analyzing the phosphorylation of the PGH 1 molecule. It was found, by metabolic labeling with [32P]orthophosphate, that PGH 1 was phosphorylated throughout the entire asexual erythrocytic life cycle of the parasite, with the maximum level of 32P incorporation during the trophozoite and schizont stages. Incubation of trophozoites with modulators of mammalian protein kinases suggests that a Ca(2+)-dependent protein kinase is involved in phosphorylation of PGH 1. PGH 1 could also be phosphorylated in the presence of gamma-32P ATP on purified digestive vacuoles where this protein has previously been localized. Two-dimensional phospho-amino acid analysis revealed that PGH 1 was phosphorylated on serine and
threonine
residues and the pattern of amino acid phosphorylation was similar for PGH 1 phosphorylated in infected red blood cells and on purified digestive vacuoles. PGH 1 phosphorylation in the presence of some antimalarial drugs was analyzed and it was found that neither chloroquine nor compounds that modulate chloroquine resistance had any effect on PGH 1 phosphorylation.
...
PMID:Phosphorylation of a P-glycoprotein homologue in Plasmodium falciparum. 790 21
Okadaic acid (OA)-resistant variants of Chinese hamster ovary cells, clones CHO/OAR6-6 and CHO/OAR2-3, were isolated from a CHO-K1 culture. These variant cells were 17- to 26-fold more resistant to OA than the parental cells. The phosphorylase phosphatase activity of the variant cell extracts was 2- to 4-fold more resistant to OA than that of the parental cells in the presence of inhibitor 2, a specific inhibitor of type 1 protein serine/
threonine
phosphatase (PP1). Nucleotide sequencing of PP2A alpha (an isotype of PP2A catalytic subunit) cDNA demonstrated that both variants have a T-->G transversion at the first base of codon 269 (805 nt), which results in substitution of glycine for cysteine. We expressed in COS-1 cells a mutant PP2A alpha tagged with the influenza hemagglutinin epitope. The recombinant mutant PP2A alpha protein immunoprecipitated with an anti-influenza hemagglutinin antibody was more resistant than the wild type to OA, their IC50 values being 0.65 nM and 0.15 nM, and their IC80 values being 4.0 nM and 0.45 nM, respectively. The cysteine at residue 269 present only in highly OA-sensitive protein serine/
threonine
phosphatase catalytic subunit isozymes, PP2A alpha, PP2A beta, and PPX, is suggested to be involved in the binding of OA. CHO/OAR6-6 and CHO/OAR2-3 cells also overexpressed the
P-glycoprotein
, and the efflux of OA was more rapid. It is suggested that the PP2A alpha mutation in cooperation with a high level of
P-glycoprotein
makes the CHO-K1 variants highly resistant to OA.
...
PMID:Characterization of the PP2A alpha gene mutation in okadaic acid-resistant variants of CHO-K1 cells. 793 53
Site-directed mutagenesis was used to investigate whether amino acids located in the predicted transmembrane segment, TM6 (residues 330-351), of human
P-glycoprotein
play essential roles in drug transport. Mutant cDNAs were expressed in mouse NIH 3T3 cells and analyzed with respect to their ability to confer resistance to cytotoxic drugs. Four mutations were found to strongly alter the drug resistance profile conferred by
P-glycoprotein
. Mutation of Val338 to Ala resulted in a mutant
P-glycoprotein
which conferred enhanced resistance to colchicine and reduced relative resistance to vinblastine. By contrast, mutant Gly341 to Val conferred little resistance to colchicine or doxorubicin, while its ability to confer resistance to vinblastine or actinomycin D was retained. A reduction in the ability of
P-glycoprotein
to confer resistance to all four drugs was observed for mutant Ala342 to Leu. Mutation of Ser344 to Ala,
Thr
, Cys, or Tyr resulted in mutant P-glycoproteins which were unable to confer drug resistance. Photolabeling of
P-glycoprotein
with azidopine in the presence of varying amounts of vinblastine showed that mutation of Ser344 to Tyr required approximately 15-fold more vinblastine to inhibit photolabeling when compared to wild-type enzyme. All of the Ser344 mutants were found to have reduced drug-stimulated ATPase activity relative to wild-type enzyme. These results, together with our previous demonstration that changes to Phe335 affected dissociation of vinblastine, suggest that TM6 may play an important role in drug--protein interaction and coupling of drug binding to ATPase activity.
...
PMID:Mutations to amino acids located in predicted transmembrane segment 6 (TM6) modulate the activity and substrate specificity of human P-glycoprotein. 794 14
The serine residue located at position 939 and 941 in the predicted transmembrane segment 11 of
P-glycoprotein
(
P-gp
) encoded by mouse mdr3 and mdr1, respectively, appears to be important for interaction of chemotherapeutic drugs and reversal agents with
P-gp
. To further understand the role of this residue in this process and to identify the structural requirements involved, we have replaced this serine residue by alanine, cysteine,
threonine
, tyrosine, tryptophan, and aspartic acid and tested the effect of these mutations on the overall activity and substrate specificity of mdr1 and mdr3. All mutant proteins could be expressed at high levels in the membrane fractions of LR73 Chinese hamster cells transfected with the corresponding mutant cDNAs. All introduced mutations had limited effect on the capacity of mdr1 and mdr3 to confer resistance to vinblastine. The modulatory effect of mutations on resistance to colchicine, adriamycin, and actinomycin D was more dramatic. The hydroxyl group of serine did not seem essential for interaction with these drugs since mutant mdr1 and mdr3 bearing alanine or cysteine at that position behaved essentially as wild type, while
threonine
-bearing mutants showed significantly reduced resistance to these drugs. The insertion at that site of residues with bulkier side chains had more complex effects on
P-gp
function. While introducing tyrosine, tryptophan, or aspartic acid caused an almost complete loss of colchicine and adriamycin resistance in both mdr1 and mdr3, the replacement to tyrosine or tryptophan had the opposite effect on mdr1 and mdr3 for actinomycin D resistance, causing either a 3-fold increase or a 4-8-fold decrease in resistance to this drug, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Modulatory effects on substrate specificity of independent mutations at the serine939/941 position in predicted transmembrane domain 11 of P-glycoproteins. 810 79
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