Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In this paper, we review recent work on multidrug resistance (MDR) in Amsterdam. We have generated mice homozygous for a disruption of one of their P-glycoprotein (Pgp) genes. The mutations do not interfere with viability or fertility, showing that these Pgps have no indispensable role in early development or metabolism. Mice homozygous for a disruption of their mdr2 gene, however, develop liver disease and this appears to be due to their complete inability to secrete phospholipids into bile. This suggests that the mdr2 Pgp (and, by inference, its human MDR3 homologue) is essential for translocating phospholipids through the hepatocyte canalicular membrane in which this Pgp is located. These and other results show the importance of the genetic approach for studying drug metabolism. MDR is not only caused by increased activity of Pgps. When the human non-small cell lung carcinoma cell line SW-1573 is selected in vitro for low level doxorubicin resistance, the resistant variants are nearly always multidrug resistant, but this is not due to increased Pgp activity. Only when resistance is pushed to higher levels does activation of the MDR1 Pgp gene occur. This suggests that clinically relevant levels of drug resistance in some cells may be caused predominantly by non-Pgp-mediated drug resistance mechanisms. The protein responsible for MDR in the SW-1573 cells has not yet been identified and experiments are in progress to find the gene encoding it.
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PMID:Classical and novel forms of multidrug resistance and the physiological functions of P-glycoproteins in mammals. 791 35

Two types of P-glycoprotein have been found in mammals: the drug-transporting P-glycoproteins and a second type, unable to transport hydrophobic anticancer drugs. The latter is encoded by the human MDR3 (also called MDR2) and the mouse mdr2 genes, and its tissue distribution (bile canalicular membrane of hepatocytes, B cells, heart, and muscle) suggests a specialized metabolic function. We have generated mice homozygous for a disruption of the mdr2 gene. These mice develop a liver disease that appears to be caused by the complete inability of the liver to secrete phospholipid into the bile. Mice heterozygous for the disrupted allele had no detectable liver pathology, but half the level of phospholipid in bile. We conclude that the mdr2 P-glycoprotein has an essential role in the secretion of phosphatidylcholine into bile and hypothesize that it may be a phospholipid transport protein or phospholipid flippase.
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PMID:Homozygous disruption of the murine mdr2 P-glycoprotein gene leads to a complete absence of phospholipid from bile and to liver disease. 810 72

Mice homozygous for a disruption in the Mdr2 gene (Mdr2 (-/-) mice) lack the Mdr2 P-glycoprotein (P-gp) in the canalicular membrane of the hepatocyte and are unable to excrete phosphatidylcholine into the bile. These mice develop a nonsuppurative cholestatic liver disease, presumably caused by the high concentrations of free cytotoxic bile acids in bile. We generated transgenic mice that express the human homolog of Mdr2, MDR3, specifically in the liver by the use of an albumin promoter. In these mice the MDR3 P-gp is exclusively located in the canalicular membrane of hepatocytes and phospholipid excretion into bile is restored. Mice that contain the same amount of MDR3 P-gp as that of Mdr2 P-gp in wild-type mice, also excrete the same amount of phospholipids. No histopathological abnormalities were observed in the livers of these mice. In mice that express MDR3 at a higher or lower level, the phospholipid excretion correlated with the amount of MDR3 P-gp. We conclude that the human MDR3 P-gp is functionally homologous to the murine Mdr2 P-gp and that it can fully replace this P-gp in Mdr2 (-/-) mice, restoring the excretion of phospholipids into the bile. The phospholipid excretion is limited by the amount of MDR3 or Mdr2 P-gp. The excretion of cholesterol is not tightly coupled to the excretion of phospholipids in these mice, because a very low phospholipid excretion level is sufficient to give almost wild-type cholesterol excretion into the bile.
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PMID:Hepatocyte-specific expression of the human MDR3 P-glycoprotein gene restores the biliary phosphatidylcholine excretion absent in Mdr2 (-/-) mice. 969 21

Biliary lipid secretion is an important physiological event; not only for the disposal of cholesterol from the body, but also for the protection of cells lining the biliary tree against bile salts. Insight into the (patho)physiological role of biliary lipid secretion has been recently expanded through the study of a generation of mice with a disruption of the Mdr2 gene, who do not secrete lipids into bile. Mdr2 P-glycoprotein translocates phospholipids across the hepatocanalicular membrane. These animals suffer from progressive liver disease caused by the toxic detergent action of bile salts. Very recently, it has become clear that an analogous inherited human liver disease exists, which is caused by the absence of biliary lipid secretion. Patients with this disease, Progressive Familial Intrahepatic Cholestasis (PFIC) type 3, have a mutation in the MDR3 gene, which is the human homologue of the murine Mdr2 gene.
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PMID:The mechanism of biliary lipid secretion and its defects. 1019 78

We examined the effects of the administration of different bile acids on in vivo hepatic murine cytochrome P450 (CYP) content, nicotinamide adenine dinucleotide phosphate (NADPH)-CYP-reductase, and individual mixed-function oxidases (MFOs). Neither CYP level nor reductase were appreciably affected by single intraperitoneal administration of taurodeoxycholic acid (TDCA) (12.2 or 24.4 mg x kg(-1) bw). MFO to various isoenzymes were slightly reduced 24 hours after treatment. Taurohyodeoxycholic acid (THDCA) and tauroursodeoxycholic acid (TUDCA) both induced CYP, reductase, and MFOs. CYP3A1/2-linked activity (i.e., testosterone 6beta-hydroxylase, and N-demethylation of aminopyrine) in a dose-dependent fashion was enhanced ( approximately 2-3-fold). CYP2E1- (hydroxylation of p-nitrophenol), CYP1A2-(O-demethylation of methoxyresorufin), CYP2A1/2- and CYP2B1/2-(6alpha-hydroxylase), and CYP2B9- (16alpha-hydroxylase) dependent MFOs, as well as 7alpha-, 16beta-, 2alpha-, and 2beta-hydroxylations, were all significantly induced by THDCA. Apart from alkoxyresorufin metabolism and a modest CYP2E1 increase, TUDCA behaved like THDCA. A generalized induction was also recorded after ursodeoxycholic acid (UDCA) administration. THDCA and TDCA did not show substantial differences in the N-demethylation of aminopyrine when different species (rat vs. mouse) and administration route (intraperitoneal vs. intravenous) were compared. Results on the most affected isoenzymes, CYP3A1/2 (THDCA, TUDCA, and UDCA) and CYP2E1 (UDCA), were sustained by means of Western immunoblotting. CYP3A induction was paralleled by a corresponding increase in mRNA. These data could partially explain the therapeutic mechanism of UDCA, TUDCA, and THDCA in chronic cholestatic liver disease. CYP3A induction, which is linked to P-glycoprotein (Pgp) family overexpression, may enhance hepatic metabolism, transport, and excretion of toxic endogenous lipophilic bile acids.
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PMID:Bile acid structure and selective modulation of murine hepatic cytochrome P450-linked enzymes. 1046 80

Technetium-99m sestamibi has attracted interest for assessment of the function of P-glycoproteins, which are well expressed in the liver and have roles in biliary transport and the removal of chemotherapeutic drugs. To further examine the cross-reactivity of (99m)Tc-sestamibi for P-glycoprotein family members, we conducted studies in animals. Hepatobiliary secretion of (99m)Tc-sestamibi was determined in normal FVB/N mice, mutant mice with specific P-glycoprotein deficiencies in the FVB/N background, normal Long-Evans Agouti (LEA) rats, and Long-Evans Cinnamon (LEC) rats with abnormal copper transport and liver disease but intact P-glycoprotein expression. After intrasplenic injection, (99m)Tc-sestamibi was rapidly incorporated in the mouse and rat liver, with maximal accumulation after 102+/-31 and 109+/-16 s, respectively ( P=NS). In normal mice and rats, 55%+/-11% and 55%+/-6%, respectively, of the maximal sestamibi activity was retained in the liver after 1 h ( P=NS). In double knockout mice lacking both mdr1a and mdr1b homologs of the human MDR1 ( ABCB1) gene, 88%+/-11% of maximal sestamibi activity was retained in the liver after 1 h ( P<0.001). In knockout mice deficient in either mdr1a gene or mdr2 ( ABCB4) gene, biliary sestamibi excretion was also impaired, although this impairment was relatively less pronounced in ABCB4-deficient mice than in double knockout mice lacking both ABCB1 gene homologs ( P<0.03). Hepatobiliary sestamibi excretion in LEC rats was not different from that in control normal rats, despite the presence of significant liver disease in the former. Hepatobiliary sestamibi excretion requires P-glycoproteins and is unperturbed in chronic liver disease. Sestamibi appears to be a substrate for both ABCB1 and ABCB4 genes, although the former utilizes it far more efficiently. Assessment of P-glycoprotein activity with sestamibi should consider how regulation of ABCB1 and related family members might modulate sestamibi incorporation.
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PMID:Sestamibi is a substrate for MDR1 and MDR2 P-glycoprotein genes. 1253 46

Ertapenem, a Group 1 carbapenem, is a once-a-day parenteral beta-lactam antibiotic recently licensed in the USA and Europe. Monotherapy with ertapenem dosed as 1 g once a day has been shown to be highly effective in clinical trials for the treatment of complicated infections of skin and skin structures, complicated intra-abdominal infections, community-acquired pneumonia, acute pelvic infections and complicated urinary tract infections. Dosing modifications have not been recommended for adults on the basis of gender, age, weight or liver disease. Presently there are no data regarding the use of ertapenem in children. Dose reductions are indicated for patients with advanced renal insufficiency. Ertapenem is neither a substrate nor an inhibitor of P-glycoprotein or cytochrome P450 enzymes; significant drug interactions between ertapenem and drugs handled by these systems are not expected.
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PMID:Pharmacokinetics and pharmacodynamics of ertapenem: an overview for clinicians. 1515 Jan 80

Sirolimus (rapamycin, RAPAMUNE, RAPA) is an immunosuppressive agent used for the prophylaxis of renal allograft rejection and exhibits an immunosuppressive mechanism that is distinct from that for cyclosporine and tacrolimus. The purpose of this manuscript is to discuss the exposure-response relationships and drug interactions of sirolimus. The various factors affecting sirolimus whole blood exposure included first-pass extraction, formulation, food, demographics, liver disease, assay method, and interacting drugs. Clinically significant effects caused by food, pediatric age, hepatic impairment, and interacting drugs require recommendations for the safe and efficacious use of sirolimus in renal allograft patients. An exposure-response model based on multivariate logistic regression was developed using the interstudy data from 1832 renal allograft patients. The analysis revealed an increased probability of acute rejection for sirolimus troughs <5 ng/mL, cyclosporine troughs <150 ng/mL, human leukocyte antigen (HLA) mismatches > or =4, and females. The outcomes suggested that individualization of sirolimus doses immediately after transplantation, based on HLA mismatch and sex, would likely decrease the probability of acute rejections in renal allograft recipients who receive concomitant sirolimus, cyclosporine (full-dose), and corticosteroid therapy. Sirolimus is a substrate for both Cytochrome P450 3A (CYP3A) and P-glycoprotein (P-gp) and undergoes extensive first-pass extraction. Drugs that are known to inhibit or induce these proteins may potentially affect sirolimus whole blood exposure. In healthy volunteers, cyclosporine, diltiazem, erythromycin, ketoconazole, and verapamil significantly increased sirolimus whole blood exposure, and rifampin significantly decreased sirolimus exposure. However, sirolimus whole blood exposure was not affected by acyclovir, atorvastatin, digoxin, ethinyl estradiol/norgestrel, glyburide, nifedipine, or tacrolimus. Among the 15 drugs studied, sirolimus significantly increased the exposures of only erythromycin and S-(-)verapamil.
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PMID:Exposure-response relationships and drug interactions of sirolimus. 1576 93

With the increasing incidence of drug-induced liver disease, attempts are being made to better understand the mechanisms behind these frequently life-endangering reactions. Analgesics and anti-inflammatory drugs are a major group exhibiting hepatotoxicity. We review research relating to these reactions, focusing on ultrastructural findings, which may contribute to the comprehension and possible avoidance of drug-induced liver disease. We also present some original observations on clinical material and cultured cells exposed to acetaminophen alone or in combination with the antioxidant N-acetylcysteine or the P-glycoprotein inhibitor verapamil.
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PMID:Hepatotoxicity of anti-inflammatory and analgesic drugs: ultrastructural aspects. 1649 Jan 60

Molecular events preceding the development of hepatocellular carcinoma were studied in the Mdr2-knockout (Mdr2-KO) mice. These mice lack the liver-specific P-glycoprotein responsible for phosphatidylcholine transport across the canalicular membrane. Portal inflammation ensues at an early age followed by hepatocellular carcinoma development after the age of 1 year. Liver tissue samples of Mdr2-KO mice in the early and late precancerous stages of liver disease were subjected to histologic, biochemical, and gene expression profiling analysis. In an early stage, multiple protective mechanisms were found, including induction of many anti-inflammatory and antioxidant genes and increase of total antioxidant capacity of liver tissue. Despite stimulation of hepatocyte DNA replication, their mitotic activity was blocked at this stage. In the late stage of the disease, although the total antioxidant capacity of liver tissue of Mdr2-KO mice was normal, and inflammation was less prominent, many protective genes remained overexpressed. Increased mitotic activity of hepatocytes resulted in multiple dysplastic nodules, some of them being steatotic. Expression of many genes regulating lipid and phospholipid metabolism was distorted, including up-regulation of choline kinase A, a known oncogene. Many other oncogenes, including cyclin D1, Jun, and some Ras homologues, were up-regulated in Mdr2-KO mice at both stages of liver disease. However, we found no increase of Ras activation. Our data suggest that some of the adaptive mechanisms induced in the early stages of hepatic disease, which protect the liver from injury, could have an effect in hepatocarcinogenesis at later stages of the disease in this hepatocellular carcinoma model.
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PMID:Multiple adaptive mechanisms to chronic liver disease revealed at early stages of liver carcinogenesis in the Mdr2-knockout mice. 1661 19


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