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)

Multidrug transporters such as P-glycoprotein require considerable inter-domain communication to couple energy utilization with substrate translocation. Elucidation of the regions or residues involved in these communication pathways is a key step in the eventual molecular description of multidrug transport. We used cysteine-scanning mutagenesis to probe the functional involvement of residues along the cytoplasmic half of transmembrane segment 6 (TM6) and its extension toward the nucleotide binding domain. The mutation of one residue (G346C) in this segment adversely affected drug transport in cells. Further investigation using purified protein revealed that the underlying biochemical effect was a reduction in basal ATP hydrolysis. This G346C mutation also affected the stimulation of ATPase activity in a drug dependent manner but had no effect on drug binding, ATP binding, or ADP release. Homology modeling of P-glycoprotein indicated that the G346C mutation caused a steric interaction between TM5 and TM6, thereby precluding a helical movement required to support ATP hydrolysis.
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PMID:Residue G346 in transmembrane segment six is involved in inter-domain communication in P-glycoprotein. 1769 19

We exploit the biochemical and sequence similarity between Staphylococcus aureus Sav1866 and P-glycoprotein to develop a homology model of P-glycoprotein representing an ATP-bound state, which captures the major features of the low-resolution EM structure and is consistent with cysteine mutagenesis studies. Using insights from the MalK crystal structures and BtuCD simulations, we model two nucleotide-free conformations. Conformational changes are characterized by pincering rigid-body rotations of the nucleotide-binding domains, inducing transmembrane domain reorganizations which correspond to the two lowest frequency normal modes of the protein. These conformations (see supplementary material) may characterize some of the major steps in the nucleotide catalytic cycle.
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PMID:P-glycoprotein models of the apo and ATP-bound states based on homology with Sav1866 and MalK. 1770 48

Salvicine, a novel diterpenoid quinone compound, displays potent antitumor activities in vitro and in vivo, which is under Phase II clinical trials for cancer therapy. Our previous studies have shown that salvicine effectively kills multidrug-resistant (MDR) cells and downregulates mdr-1 and P-glycoprotein (P-gp) levels by activation of transcription factor c-Jun in MDR K562/A02 cells. Recent studies have further demonstrated that salvicine-formed reactive oxygen species (ROS) contribute to its induction of cytotoxicity, DNA double strand breaks and apoptosis. In this study, we showed that salvicine induced equal ROS generation and glutathione depletion in both sensitive K562 and MDR K562/A02 cells. Pre-incubation with thiol antioxidants glutathione or N-acetyl-cysteine (NAC, precursor of intracellular glutathione) almost abolished the cytotoxicity of salvicine, which also could be attenuated by the H(2)O(2)-specific scavenger catalase. Moreover, NAC abrogated salvicine-induced DNA double strand breaks and apoptosis. Notably, both H(2)O(2) and vitamin C potentiated the cytotoxicity and apoptotic induction of salvicine in parental K562 and MDR K562/A02 cells, and catalase could remove such potentiation. Furthermore, pretreatment of K562/A02 cells with NAC eliminated P-gp downregulation, JNK phosphorylation and c-Jun activation induced by salvicine. Our data collectively indicate that salvicine-generated ROS contribute to both cell killing and P-gp downregulation in MDR K562/A02 cells, thus extending our prior related studies. This study also opens the possibility of the combination therapy of salvicine and vitamin C in the future.
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PMID:Reactive oxygen species contribute to cell killing and P-glycoprotein downregulation by salvicine in multidrug resistant K562/A02 cells. 1803 28

P-glycoprotein (Pgp) is an ATP hydrolysis driven multidrug efflux pump, which, when overexpressed in the plasma membrane of certain cancers, can lead to the failure of chemotherapy. Previously, we have presented a projection structure of nucleotide-free mouse Pgp from electron microscopic images of lipid monolayer-generated two-dimensional crystals ( Lee, J. Y., Urbatsch, I. L., Senior, A. E., and Wilkens, S. (2002) J. Biol. Chem. 277, 40125-40131 ). Here we have analyzed the structure of cysteine-free human Pgp from two-dimensional crystals that were generated with the same lipid-monolayer technique in the absence and presence of various nucleotides. The images show that human Pgp has a similar structure to the mouse protein. Furthermore, the analysis of projection structures obtained under different nucleotide conditions suggests that Pgp can exist in at least two major conformations, one of which shows a central cavity between the N- and C-terminal halves of the molecule and another in which the two halves have moved sideways, thereby closing the central cavity. Intermediate conformations were observed for some nucleotide/vanadate combinations. A low-resolution, three-dimensional model of human Pgp was calculated from tilted specimen crystallized in the presence of the non-hydrolyzable nucleotide analog, adenosine 5'-O-(thiotriphosphate). The structural analysis presented here adds to the emerging picture that multidrug ABC transporters function by switching between two major conformations in a nucleotide-dependent manner.
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PMID:Nucleotide-induced structural changes in P-glycoprotein observed by electron microscopy. 1809 77

Human mutant-type (mt) p53 cDNA was synthesized and cloned from human lung cancer cell line GL containing mt-p53 gene by using polymerase chain reaction (PCR). It was confirmed that the mt-p53 cDNA contained the complete coding sequence of p53 gene but mutated at codon 245 (G-->T) and resulted in glycine to cysteine by sequencing analysis. The retroviral vector pD53M of the mt-p53 was constructed and introduced into the drug-sensitive human lung cancer cells GAO in which p53 gene did not mutate. The transfected GAO cells strongly expressed mutant-type p53 protein by immunohistochemistry, showing that pD53M vector could steadily express in GAO cells. The drug resistance to several anticancer agents of GAO cells infected by pD53M increased in varying degrees, with the highest increase of 4-fold,in vitro andin vivo. By quantitative PCR and flow cytometry (FCM) analyses, the expression of MDR1 gene and the activity of P-glycoprotein (Pgp) did not increase, the expression of MRP gene and the activity of multidrug resistance-related protein (Mrp) increased slightly. These results indicated that the drug resistance associated with mt-p53 gene might be somewhat correlated with MRP/Mrp but not with MDR1/Pgp. It was possible to modify the tumor drug resistance by changing status of p53 gene.
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PMID:Increasing drug resistance in human lung cancer cells by mutant-type p53 gene mediated by retrovirus. 1872 4

It was proposed that increased level of mitochondrial reactive oxygen species (ROS), mediating execution of the aging program of an organism, could also be critical for neoplastic transformation and tumorigenesis. This proposal was addressed using new mitochondria-targeted antioxidant SkQ1 (10-(6'-plastoquinonyl) decyltriphenylphosphonium) that scavenges ROS in mitochondria at nanomolar concentrations. We found that diet supplementation with SkQ1 (5 nmol/kg per day) suppressed spontaneous development of tumors (predominantly lymphomas) in p53(-/-) mice. The same dose of SkQ1 inhibited the growth of human colon carcinoma HCT116/p53(-/-) xenografts in athymic mice. Growth of tumor xenografts of human HPV-16-associated cervical carcinoma SiHa was affected by SkQ1 only slightly, but survival of tumor-bearing animals was increased. It was also shown that SkQ1 inhibited the tumor cell proliferation, which was demonstrated for HCT116 p53(-/-) and SiHa cells in culture. Moreover, SkQ1 induced differentiation of various tumor cells in vitro. Coordinated SkQ1-initiated changes in cell shape, cytoskeleton organization, and E-cadherin-positive intercellular contacts were observed in epithelial tumor cells. In Ras- and SV40-transformed fibroblasts, SkQ1 was found to initiate reversal of morphological transformation of a malignant type, restoring actin stress fibers and focal adhesion contacts. SkQ1 suppressed angiogenesis in Matrigel implants, indicating that mitochondrial ROS could be important for tumor angiogenesis. This effect, however, was less pronounced in HCT116/p53(-/-) tumor xenografts. We have also shown that SkQ1 and related positively charged antioxidants are substrates of the P-glycoprotein multidrug resistance pump. The lower anti-tumor effect and decreased intracellular accumulation of SkQ1, found in the case of HCT116 xenografts bearing mutant forms of p53, could be related to a higher level of P-glycoprotein. The effects of traditional antioxidant N-acetyl-L-cysteine (NAC) on tumor growth and tumor cell phenotype were similar to the effects of SkQ1 but more than 1,000,000 times higher doses of NAC than those of SkQ1 were required. Extremely high efficiency of SkQ1, related to its accumulation in the mitochondrial membrane, indicates that mitochondrial ROS production is critical for tumorigenesis at least in some animal models.
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PMID:Mitochondria-targeted plastoquinone derivatives as tools to interrupt execution of the aging program. 3. Inhibitory effect of SkQ1 on tumor development from p53-deficient cells. 1912 16

We have developed a novel dual-acting maleimide-bearing prodrug that incorporates the anticancer agent doxorubicin and an inhibitor of the P-glycoprotein efflux pump that is over-expressed in multidrug resistant tumor cells. Additionally, the prodrug contains a 1,6-self-immolative spacer coupled to the dipeptide Phe-Lys that acts as a substrate for cathepsin B. The prodrug, once bound through its maleimide moiety to the cysteine-34 group of human serum albumin, was cleaved by cathepsin B and in tumor homogenates demonstrating a release of the anticancer agent doxorubicin and the inhibitor.
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PMID:Development of dual-acting prodrugs for circumventing multidrug resistance. 1913 Dec 46

Multidrug efflux pumps, such as P-glycoprotein (ABCB1), present major barriers to the success of chemotherapy in a number of clinical settings. Molecular details of the multidrug efflux process by ABCB1 remain elusive, in particular, the interdomain communication associated with bioenergetic coupling. The present investigation has focused on the role of transmembrane helix 12 (TM12) in the multidrug efflux process of ABCB1. Cysteine residues were introduced at various positions within TM12, and their effect on ATPase activity, nucleotide binding, and drug interaction were assessed. Mutation of several residues within TM12 perturbed the maximal ATPase activity of ABCB1, and the underlying cause was a reduction in basal (i.e., drug-free) hydrolysis of the nucleotide. Two of the mutations (L976C and F978C) were found to reduce the binding of [gamma-(32)P]-azido-ATP to ABCB1. In contrast, the A980C mutation within TM12 enhanced the rate of ATP hydrolysis; once again, this was due to modified basal activity. Several residues also caused reductions in the potency of stimulation of ATP hydrolysis by nicardipine and vinblastine, although the effects were independent of changes in drug binding per se. Overall, the results indicate that TM12 plays a key role in the progression of the ATP hydrolytic cycle in ABCB1, even in the absence of the transported substrate.
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PMID:Transmembrane helix 12 modulates progression of the ATP catalytic cycle in ABCB1. 1945 24

We constructed and expressed an anti-CD3/anti-Pgp (P-glycoprotein) diabody previously. However, the two chains of diabody are associated non-covalently, resulting in being capable of dissociating. The aim of this study is to enhance the stability of the diabody. We introduced cysteine residues into the CD3 or Pgp V-domain to covalently lock the two chains together. The disulphide crosslinked diabody were expressed by Escherichia coli (E. coli) 16C9 and purified by a cation exchange column and an anti-Etag affinity chromatography. The purified proteins were verified through SDS-PAGE. Flow cytometry (FCM) was used to analyse the binding properties, competitive binding capacity and stability in vitro. The dsPpg-diabody failed to form disulphide bond properly. The designed disulphide bridge between the different chains of dsCD3-diabody was formed correctly. FCM demonstrated the dsCD3-diabody has specific antigen binding activity, the same binding activity and competitive binding activity as its parent diabody. The dsCD3-diabody retained the full activity even after 72 h incubation at 37 degrees C in human serum, in contrast, the parent diabody began to lose activity after only 1 h and lose all its activity 24 hours later. The induced disulphide bond in the CD3 V-domain effectively enhanced the stability of anti-CD3/anti-Pgp diabody. The method of stabilizing a diabody by introducing a disulphide bond into is practical.
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PMID:[Construction and expression of disulphide stabilized anti-CD3/anti-Pgp diabody]. 1983 46

The P-glycoprotein (P-gp, ABCB1) drug pump protects us from toxic compounds and confers multidrug resistance. Each of the two homologous halves of P-gp is composed of a transmembrane domain (TMD) with six TM segments followed by a nucleotide-binding domain (NBD). The drug- and ATP-binding sites reside at the interface between the TMDs and NBDs, respectively. Crystal structures show drug pumps in the open and closed conformations, where the drug-binding pocket and NBDs are open or closed at the cytoplasmic side, respectively. Although it has been postulated that drug substrates enter the drug-binding pocket in the open conformation, it is unknown if they can enter in the closed conformation. To determine this, we introduced cysteines into regions of TM3 (residues 175-178) and TM9 (residues 820-822) that extend into the cytoplasm and are 4 A and 20 A apart in the closed and open conformations, respectively. The 12 double cysteine mutants were then cross-linked with a short cross-linker, M1M (4 A) at 0 degrees C to reduce thermal motion in the protein. Only mutant L175C/N820C was cross-linked. Cross-linking was not increased in the presence of ATP or drug substrates. Cross-linking increased its basal ATPase activity about 3-fold. Activity could be increased further by drug substrates such as verapamil and rhodamine B. These results suggest that P-gp in the membrane is in the closed conformation that has a high affinity for drug substrates.
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PMID:Human P-glycoprotein is active when the two halves are clamped together in the closed conformation. 2039 29

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