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)

Previous controversy has risen from the purported equivalence of the volume-sensitive chloride channels with P-glycoprotein. The aim of this study was to investigate the association between expression of volume-sensitive Cl- channels and the process of malignant transformation of cervical epithelial cells. We studied the activations of volume-sensitive and cAMP-mediated chloride currents in various human cervical squamous cells that were representative of different stages of cervical carcinogenesis, i.e., normal cervical epithelium, low-grade cervical intraepithelial neoplasia, carcinoma in situ, and invasive carcinoma using the whole-cell patch clamp technique. The volume-sensitive chloride channels, however, were significantly activated only in the four cervical cancer cell lines, primary culture cells of carcinoma in situ, and invasive cancer of the cervix. The expression of volume-sensitive chloride currents was independent of the state of human papillomavirus positivity. When these cells were exposed to hypotonic shock, the cells swelled, and outward rectified chloride currents were observed. These effects were readily reversed by returning the cells to isotonic medium. In addition, 4,4'-diisothiocyanatostilbene-2,2-disulfonic acid, 1,9-dideoxyforskolin, and verapamil reversibly abolished the volume-sensitive Cl- currents. In contrast, none of the cells from normal cervices and human papillomavirus-immortalized cell lines, the in vitro equivalent of low-grade cervical intraepithelial neoplasia, developed substantial chloride currents on exposure to hypotonicity. cAMP-mediated chloride currents were ubiquitously activated in all cervical squamous cells, regardless of the stages of carcinogenesis. This is the first report suggesting an in vivo association between the development of volume-sensitive chloride currents and human carcinogenesis.
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PMID:Volume-sensitive chloride channels associated with human cervical carcinogenesis. 852 96

The development of cross-resistance to many natural product anticancer drugs, termed multidrug resistance (MDR), is a serious limitation to cancer chemotherapy. MDR is often associated with overexpression of the MDR1 gene product, P-glycoprotein, a multifunctional drug transporter. Understanding the mechanisms that regulate the transcriptional activation of MDR1 may afford a means of reducing or eliminating MDR. We have found that MDR1 expression can be modulated by type I cAMP-dependent protein kinase (PKA). This suggests that MDR may be modulated by selectively downregulating PKA activity to effect inhibition of PKA-dependent trans-activating factors which may be involved in MDR1 transcription. High levels of type I PKA occur in primary breast carcinomas and patients exhibiting this phenotype show decreased survival. The selective type I PKA inhibitors, 8-Cl-cAMP and Rp8-Cl-cAMP[S], may be particularly useful for downregulating PKA, and inhibit transient expression of a reporter gene under the control of MDR1 promoter elements. Thus, investigations of the signalling pathways involved in transcriptional regulation of MDR1 may lead to a greater understanding of the mechanisms governing the expression of MDR and provide a focus for pharmacological intervention.
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PMID:Regulation of multidrug resistance through the cAMP and EGF signalling pathways. 856 4

The effect of several opiate compounds on I- efflux was investigated in cultured cell lines. I- efflux was evoked by two distinct stimuli, namely cell swelling and elevation of cellular cAMP levels by prostaglandin E2. Cells expressing the multidrug resistance P-glycoprotein were found to have increased I- efflux in response to hypo-osmotic challenge. This increased I- efflux in P-glycoprotein containing cells was reduced to levels found in parental cells by the opiates morphine, pentazocine and naloxone. Addition of prostaglandin E2 to T84 cells resulted in elevated cellular cAMP levels and a significant I- efflux. This cAMP stimulated efflux was also inhibited by several opiates. None of the opiates was able to alter cAMP levels or protein kinase A mediated phosphorylation of immunoprecipitated cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel in T84 cells. The ability of opiates to alter ion conductances is discussed in relation to the anti-diarrheal effects of these compounds.
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PMID:Opiates inhibit ion conductances elicited by cell swelling and cAMP in cultured cells. 856 69

The ATP binding cassette transporter ABC1 is a 220-kDa glycoprotein expressed by macrophages and required for engulfment of cells undergoing programmed cell death. Since members of this family of proteins such as P-glycoprotein and cystic fibrosis transmembrane conductance regulator share the ability to transport anions, we have investigated the transport capability of ABC1 expressed in Xenopus oocytes using iodide efflux and voltage-clamp techniques. We report here that ABC1 generates an anion flux sensitive to glibenclamide, sulfobromophthalein, and blockers of anion transporters. The anion flux generated by ABC1 is up-regulated by orthovanadate, cAMP, protein kinase A, and okadaic acid. In other ABC transporters, mutating the conserved lysine in the nucleotide binding folds was found to severely reduce or abolish hydrolysis of ATP, which in turn altered the activity of the transporter. In ABC1, replacement of the conserved lysine 1892 in the Walker A motif of the second nucleotide binding fold increased the basal ionic flux, did not alter the pharmacological inhibitory profile, but abolished the response to orthovanadate and cAMP agonists. Therefore, we conclude that ABC1 is a cAMP-dependent and sulfonylurea-sensitive anion transporter.
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PMID:ABC1, an ATP binding cassette transporter required for phagocytosis of apoptotic cells, generates a regulated anion flux after expression in Xenopus laevis oocytes. 900 6

Cystic fibrosis transmembrane conductance regulator (CFTR) is a cAMP-regulated C1(-) channel. Malfunction of CFTR causes cystic fibrosis (CF). CFTR belongs to an ATP-binding cassette (ABC) transporter superfamily which includes P-glycoprotein (Pgp), the molecule that is responsible for multidrug resistance in cancer cells. P-glycoprotein molecules have been suggested to have more than one topology and function. In this study, we analysed the early stages of membrane insertion, processing, and topology of human CFTR using rabbit reticulocyte lysate and wheat germ extract translation systems supplemented with canine pancreatic microsomal membranes. Our results suggest that CFTR contains an uncleavable signal sequence and its membrane targeting and insertion may depend on the signal recognition particle (SRP) and SRP receptor. The topology of CFTR in microsomal membranes is the same as the one predicted based on hydropathy plot analysis. These results, together with our previous findings on Pgp, indicate that (1) the topologies of mammalian ABC transporters can be dissected and studied using protein fusion chimeras in a cell-tree system; and (2) the membrane targeting and insertion of CFTR and Pgp may take the same pathway, i.e., the SRP-dependent pathway, but the membrane folding mechanism of these two proteins in microsomal membranes is probably different.
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PMID:Membrane insertion, processing, and topology of cystic fibrosis transmembrane conductance regulator (CFTR) in microsomal membranes. 914 60

Multicellular prostate tumor spheroids develop intrinsic P-glycoprotein (Pgp)-mediated multidrug resistance with the appearance of quiescent cell areas. We have investigated the effect of intracellular reactive oxygen species (ROS) on Pgp expression in large, quiescent and drug-resistant multicellular spheroids (diameter 250 +/- 50microm). Using the ROS-sensitive fluorescence dye 2;7;-dichlorodihydrofluorescein diacetate (H(2)DCFDA), we demonstrated that these tumor spheroids are characterized by reduced intracellular ROS compared with drug-sensitive small spheroids (diameter 60 +/- 20microm) consisting predominantly of proliferating cells. The prooxidants hydrogen peroxide, menadione and glyceraldehyde raised ROS in large tumor spheroids and significantly down-regulated Pgp within 24 hr. Comparable effects were achieved with the known Pgp-reversing agents sodium orthovanadate, quinidine and cyclosporin A but not with verapamil. Consequently, the retention and toxicity of the anthracycline doxorubicin was increased in tumor spheroids treated with prooxidants. Co-administration of prooxidants and the free radical scavenger ebselen did not alter Pgp levels, indicating that down-regulation of Pgp is mediated via ROS. Down-regulation of Pgp by H(2)O(2) was abolished when either forskolin, 8-Br-cAMP or IBMX, which raise intracellular cAMP levels, was co-administered, indicating that Pgp expression is regulated by protein kinase A (PKA). Furthermore, Pgp was down-regulated by the PKA inhibitors Rp-cAMPs and H89. Since prooxidants stimulated the growth of multicellular spheroids and down-regulated the cyclin-dependent kinase inhibitor p27(kip1), we conclude that ROS-mediated Pgp down-regulation may be paralleled by recruitment of drug-resistant quiescent cells in the depth of the tumor tissue for cell-cycle activity.
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PMID:Redox regulation of P-glycoprotein-mediated multidrug resistance in multicellular prostate tumor spheroids. 1062 88

Although it has been well established that the drug efflux pump P-glycoprotein (P-gp) protects the brain against the entry of cytotoxic drugs, its real in situ localization, i.e., at brain capillary endothelial cells or on astrocyte foot processes, is still controversial. The aim of this study was to compare the expression of P-gp and of multidrug resistance-associated protein (Mrp1), another drug efflux pump, in cultured neonatal rat brain astrocytes and in cultured brain capillary endothelial cells. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis showed that the mdr1b gene was preferentially expressed in astrocytes, whereas both mdr1a and mdr1b mRNA were detected in endothelial cells. Moreover, the mrp1 gene encoding Mrp1 was expressed in both cell types. Western blotting analysis revealed higher expression of P-gp in endothelial cells as compared with astrocytes, but higher expression of Mrp1 in astrocytes. Moreover, P-gp and Mrp1 expression was not modified in more differentiated astrocytes obtained when cultured with db-cAMP for 48 hr. Our functional analysis of P-gp showed a modest effect of P-gp modulators (CsA, verapamil, PSC 833) on the uptake of colchicine (a substrate of P-gp) by astrocytes, whereas they increased by about 50% the uptake of vincristine (a common substrate of P-gp and MRP) by astrocytes. MRP modulators (genistein, probenecid, and sulfinpyrazone) did not modify the uptake of colchicine but increased that of vincristine with a major effect found for sulfinpyrazone. Moreover, indomethacin, probenecid, and sulfinpyrazone increased the uptake of fluorescein (a substrate of MRP but not of P-gp). Taken together, our results provide the first biochemical and functional evidence supporting the expression of P-gp and Mrp1 in rat cultured astrocytes.
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PMID:Functional expression of P-glycoprotein and multidrug resistance-associated protein (Mrp1) in primary cultures of rat astrocytes. 1082 Apr 30

ABC transporter trafficking in rat liver induced by cAMP or taurocholate and [(35)S]methionine metabolic labeling followed by subcellular fractionation were used to identify and characterize intrahepatic pools of ABC transporters. ABC transporter trafficking induced by cAMP or taurocholate is a physiologic response to a temporal demand for increased bile secretion. Administration of cAMP or taurocholate to rats increased amounts of SPGP, MDR1, and MDR2 in the bile canalicular membrane by 3-fold; these effects abated after 6 h and were insensitive to prior treatment of rats with cycloheximide. Half-lives of ABC transporters were 5 days, which suggests cycling of ABC transporters between canalicular membrane and intrahepatic sites before degradation. In vivo [(35)S]methionine labeling of rats followed by immunoprecipitation of (sister of P-glycoprotein) (SPGP) from subcellular liver fractions revealed a steady state distribution after 20 h of SPGP between canalicular membrane and a combined endosomal fraction. After mobilization of transporters from intrahepatic sites with cAMP or taurocholate, a significant increase in the amount of ABC transporters in canalicular membrane vesicles was observed, whereas the decrease in the combined endosomal fraction remained below detection limits in Western blots. This observation is in accordance with relatively large intracellular ABC transporter pools compared with the amount present in the bile canalicular membrane. Furthermore, trafficking of newly synthesized SPGP through intrahepatic sites was accelerated by additional administration of cAMP but not by taurocholate, indicating two distinct intrahepatic pools. Our data indicate that ABC transporters cycle between the bile canaliculus and at least two large intrahepatic ABC transporter pools, one of which is mobilized to the canalicular membrane by cAMP and the other, by taurocholate. In parallel to regulation of other membrane transporters, we propose that the "cAMP-pool" in hepatocytes corresponds to a recycling endosome, whereas recruitment from the "taurocholate-pool" involves a hepatocyte-specific mechanism.
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PMID:Transporters on demand: intrahepatic pools of canalicular ATP binding cassette transporters in rat liver. 1111 23

The level of protein phosphorylation is known to affect the properties of various membrane proteins. We have previously shown that GTP is capable of greatly enhancing the phosphorylation by [gamma-32P]ATP of P-glycoprotein (Pgp) from KB-V1 cells (3). Investigating the possibility of a general modulation of [gamma-32P]ATP plasma membrane protein phosphorylation, we found that phosphorylation of other membrane proteins are also modulated by various combinations of [ATP + GTP]. The ATP/GTP ratio giving the highest phosphorylation level depended on the protein studied. Modulation of the [gamma-32P]ATP-mediated phosphorylation of numerous membrane proteins requires hydrolysis of both ATP and GTP. ADP and GDP also increased [gamma-32P]ATP-driven phosphorylation but to a lesser extent than GTP. This plasma membrane endogenous phosphorylation activity was neither inhibited by specific inhibitors of protein kinase C, nor by inhibitors of cAMP- or cGMP-dependent protein kinases or of casein kinase II, respectively. Mastoparan, a G-protein regulator, increased the phosphorylation of some proteins that were already enhanced by the presence of [ATP + GTP] mixtures, especially proteins migrating in gels at the same position as P-glycoprotein.
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PMID:Modulation by the ATP/GTP ratio of the phosphorylation level of P-glycoprotein and of various plasma membrane proteins of KB-V1 multidrug resistant cells. 1289 16

The cystic fibrosis transmembrane conductance regulator (CFTR) functions in vivo as a cAMP-activated chloride channel. A member of the ATP-binding cassette superfamily of membrane transporters, CFTR contains two transmembrane domains (TMDs), two nucleotide-binding domains (NBDs), and a regulatory (R) domain. It is presumed that CFTR couples ATP hydrolysis to channel gating, and as a first step in addressing this issue directly, we have established conditions for purification of biochemical quantities of human CFTR expressed in Sf9 insect cells. Use of an 8-azido[alpha-(32)P]ATP-binding and vanadate-trapping assay allowed us to devise conditions to preserve CFTR function during purification of a C-terminal His(10)-tagged variant after solubilization with lysophosphatidylglycerol (1%) and diheptanoylphosphatidylcholine (0.3%) in the presence of excess phospholipid. Study of purified and reconstituted CFTR showed that it binds nucleotide with an efficiency comparable to that of P-glycoprotein and that it hydrolyzes ATP at rates sufficient to account for presumed in vivo activity [V(max) of 58 +/- 5 nmol min(-1) (mg of protein)(-1), K(M)(MgATP) of 0.15 mM]. In further work, we found that neither nucleotide binding nor ATPase activity was altered by phosphorylation (using protein kinase A) or dephosphorylation (with protein phosphatase 2B); we also observed inhibition (approximately 40%) of ATP hydrolysis by reduced glutathione but not by DTT. To evaluate CFTR function as an anion channel, we introduced an in vitro macroscopic assay based on the equilibrium exchange of proteoliposome-entrapped radioactive tracers. This revealed a CFTR-dependent transport of (125)I that could be inhibited by known chloride channel blockers; no significant CFTR-dependent transport of [alpha-(32)P]ATP was observed. We conclude that heterologous expression of CFTR in Sf9 cells can support manufacture and purification of fully functional CFTR. This should aid in further biochemical characterization of this important molecule.
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PMID:Characterization of the adenosinetriphosphatase and transport activities of purified cystic fibrosis transmembrane conductance regulator. 1474 50

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