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)

Vincristine (VCT) is a neurotoxic agent and also a substrate of multidrug resistance (MDR) transporters such as P-glycoprotein (P-gp) and MDR-associated proteins 1 and 2 (MRP1 and MRP2). These proteins are expressed in the central and peripheral nervous systems (CNS and PNS) and normally protect these structures against the harmful effects of VCT. The aim of this study was to elucidate the paradoxical relation between the MDR transporters and the VCT neurotoxicity. With a validated rat model of VCT-induced neuropathy, (1) the expressions of mdr1a (P-gp), mdr1b (P-gp), mrp1 (MRP1), and mrp2 (MRP2) genes were assessed by quantitative real-time polymerase chain reaction, and (2) the transporter activity was monitored using a radioactive tracer, (99m)Tc-sestamibi, in the CNS and PNS. The results showed higher expression of mdr1a and mdr1b genes (x3 and x35, respectively) in the brain than in the spinal ganglia in both control and treated animals. Transporter activity was higher (x10) in the CNS than in the PNS. Hence, P-gp protection may be lower in the PNS than in the CNS, and this may be responsible for the peripheral neurotoxicity of P-gp substrates. VCT treatment increased expression of the mdr1a gene in the CNS and PNS (both x1.7), mrp1 gene in the PNS (x1.7), and transporter activity in both the CNS and the PNS (x4 and x8, respectively). This transporter induction may induce adverse effects when analgesic drugs are administered to treat neuropathic pain.
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PMID:Patterns of P-glycoprotein activity in the nervous system during vincristine-induced neuropathy in rats. 1622 Dec 89

Monastrol is the first characterised small molecule inhibitor of the motor protein Eg5 involved in bipolar mitotic spindle assembly. Eg5 localises to microtubules in mitosis, but not to interphase microtubules, suggesting that Eg5 inhibitors may be useful to specifically target proliferating tumour tissue, thereby avoiding dose-limiting neuropathy observed with other antimicrotubule agents like taxanes or vinca alkaloids. Because other antimicrotubule agents fail in multidrug resistance associated with P-glycoprotein (Pgp) over-expression, we investigated the interaction of monastrol with Pgp in vitro. By means of the calcein assay (with P388/dx cells and primary porcine brain capillary endothelial cells) and confocal laser-scanning microscopy (with L-MDR1 cells) we demonstrated that monastrol is a weak inhibitor of Pgp in vitro, with f2 values being about two orders of magnitude greater than those of the well-known inhibitors verapamil and quinidine. Monastrol also induces Pgp in vitro as measured by mRNA expression in LS180 cells after incubation with monastrol. However, its effect is weak compared to rifampicin. Whilst it reveals weak inhibitory and inductive characteristics, monastrol appears to be not transported by Pgp, as indicated by the lack of difference in the antiproliferative effect of this compound in cell lines with and without over-expression of Pgp. The observed interaction profile of monastrol with Pgp is promising for the development of other more potent Eg5 inhibitors.
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PMID:Interaction of the mitotic kinesin Eg5 inhibitor monastrol with P-glycoprotein. 1636 80

It has recently been suggested that P-glycoprotein is involved in the genesis and the treatment of the neurotoxic adverse events of anticancer drugs, including vincristine. A lower activity of P-glycoprotein in the peripheral nervous system (PNS) than in the central nervous system could contribute to the neurotoxicity of vincristine. Vincristine treatment is responsible for the induction of multidrug resistance (MDR) gene expression and transporter activity, with deleterious consequences, including a potential decrease in the efficiency of opioid analgesics, antidepressants or antiepileptics. Concerning cisplatin, which is also a strong neurotoxic drug but only an multidrug resistance protein 2 (MRP2) substrate, the same assumption could be suggested for MRP2 nervous function. The aim of this study was to assess MDR gene and protein activity in a rat model of cisplatin-induced neuropathy compared with different peripheral nerve injury models, i.e. mononeuropathy and inflammatory pain (monoarthritis). First, in cisplatin-induced neuropathy, this study demonstrated low MRP2 gene expression in dorsal root ganglia compared with the brain and spinal cord, which could contribute to the strong neurotoxicity of cisplatin in the PNS and particularly the dorsal root ganglia. Thus, gene expression increased in cisplatin-induced neuropathy but decreased in mononeuropathy and remained unchanged in monoarthritis models. Transporter activity of nervous tissues increased in the cisplatin-induced neuropathy, mononeuropathy and monoarthritis to different intensities (3.7-, 1.8- and 1.8-fold, respectively). The development of a MDR in the cisplatin-induced neuropathy is a striking difference with mononeuropathy and monoarthritis models, and characterizes the neuropathies induced by this anticancer drug.
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PMID:Involvement of the multidrug resistance transporters in cisplatin-induced neuropathy in rats. Comparison with the chronic constriction injury model and monoarthritic rats. 1685 77

Here, we evaluated the relationships between ABCB1 (P-glycoprotein, MDR1) polymorphisms and paclitaxel (Taxol)-induced toxicity and pharmacokinetics. Twenty-six patients were assessable for pharmacogenetics and pharmacokinetics, 22 for neurotoxicity and 18 for myelotoxicity. Patients carrying two reference alleles for the ABCB1 3435C>T polymorphism trended toward a reduced risk to develop neuropathy as compared to patients carrying at least one variant allele (P=0.09). Additionally, patients who were homozygous variant at the 2677 and 3435 loci had a significantly greater percent decrease in absolute neutrophil count at nadir (P=0.02). Neither polymorphism correlated with paclitaxel pharmacokinetics. This pilot study suggests that paclitaxel-induced neuropathy and neutropenia might be linked to inherited variants of ABCB1 through a mechanism that is unrelated to altered plasma pharmacokinetics.
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PMID:Association of ABCB1 genotypes with paclitaxel-mediated peripheral neuropathy and neutropenia. 1695 Jun 14

When taxanes were introduced as anticancer agents some 20 years ago, their broad spectrum of activity was striking and engendered renewed hope for cancer patients. However, they were not without their problems, including a susceptibility to drug resistance caused by the drug efflux pump protein, P-glycoprotein. The epothilones are a new class of chemotherapeutic agents that have a mechanism of action similar enough to the taxanes to retain their broad spectrum of activity, but different enough to escape the multidrug resistance caused by P-glycoprotein. These properties are especially promising for patients with metastatic breast cancer who have run out of therapeutic options as a result of multidrug resistance. Ixabepilone, a semi-synthetic analogue of epothilone B, has recently been granted US FDA approval for the treatment of chemotherapy-resistant advanced breast cancer. Approval was based on results from a phase III study of ixabepilone in combination with capecitabine, as well as phase II studies of ixabepilone monotherapy. Significantly prolonged progression-free survival and increased objective response rates were demonstrated in the phase III study when ixabepilone was administered in combination with capecitabine compared with capecitabine alone. The phase II trials demonstrated robust antitumour activity with single-agent ixabepilone in women with metastatic breast cancer that was resistant to taxanes, anthracyclines and capecitabine. Early data from phase I trials of KOS-1584 and sagopilone are positive and suggest that these drugs may also develop into useful chemotherapeutic agents. Significant, but manageable, toxicities have been observed with the epothilones. In particular, neuropathy has led to the uneven and slower than expected clinical development of ixabepilone as optimal administration regimens were established. Some differences in tolerability profiles exist between the different analogues. Overall, it is expected that the epothilones will play an important role in the treatment of breast cancer and other tumour types.
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PMID:New therapeutic options for chemotherapy-resistant metastatic breast cancer: the epothilones. 1819 22

Pain from anticancer drugs-induced neuropathies is difficult to treat and can significantly alter the patient's quality of life. These neuropathies are considered relatively resistant to conventional analgesic drugs (opioids). Opioids are also P-glycoprotein substrates and it has been demonstrated that the P-glycoprotein is linked to the integrity of blood-brain barrier protecting the nervous system. Previous works presented an increase of P-glycoprotein in vincristine- and cisplatin-induced neuropathy which could potentially decrease opioid efficiency. To test this hypothesis, the efflux inhibition of P-glycoprotein and the antinociceptive effect of morphine were assessed in normal and cisplatin-induced neuropathic rats after the administration of the P-glycoprotein inhibitor (R101933). R101933 (20 mg/kg) inhibited significantly the efflux transporter under the condition of the study and had no analgesic effect. Nociceptive thresholds were measured by the paw pressure test. R101933 (20 mg/kg) enhanced antinociceptive activity of morphine (0.5 mg/kg) to a maximum of +58% and +35%, respectively compared with control animals and animals treated by morphine alone (0.5 mg/kg). R101933 increased morphine (2 mg/kg) antinociceptive activity to a maximum of +105% compared with control animals and to a maximum of +41% compared with morphine alone (2 mg/kg). This study demonstrated that cisplatin-induced neuropathy may present a particular pathophysiology with a multidrug resistance, of the central nervous system, to analgesics. This resistance can be blocked by a P-glycoprotein inhibitor which may enhance analgesia of low doses of morphine.
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PMID:Increase in morphine antinociceptive activity by a P-glycoprotein inhibitor in cisplatin-induced neuropathy. 1973 28

Cabazitaxel is a new taxane characterized by convenient administration, a favorable pharmacokinetic and safety profile and a decreased propensity for P-glycoprotein (Pgp)-mediated drug resistance. In preclinical studies cabazitaxel inhibited cell growth in a wide range of human cancer cell lines, including tumor models expressing Pgp. Phase I clinical trials established that the cabazitaxel side effect profile is similar to that reported for taxanes, with neutropenia and neuropathy being the most commonly reported toxicities. Further clinical studies have revealed that cabazitaxel is clinically active in women with taxaneresistant metastatic breast cancer and in men with metastatic castration-resistant prostate cancer previously treated with docetaxel. The TROPIC phase III trial concluded that, compared to mitoxantrone/prednisone, the combination cabazitaxel/prednisone conferred a statistically significantly longer overall survival in patients after treatment with a docetaxel-containing regimen, providing the basis for its FDA approval in 2010.
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PMID:Cabazitaxel, a new taxane with favorable properties. 2107 10

Until recently, patients with castration-resistant prostate cancer (CRPC) had limited therapeutic options once they became refractory to docetaxel chemotherapy, and no treatments improved survival. This changed in June 2010 when the Food and Drug Administration (FDA) approved cabazitaxel as a new option for patients with CRPC whose disease progresses during or after docetaxel treatment. For most of these patients, cabazitaxel will now replace mitoxantrone (a drug that was FDA-approved because of its palliative effects) as the treatment of choice for docetaxel-refractory disease. The approval of cabazitaxel was based primarily on the TROPIC trial, a large (n = 755) randomized Phase III study showing an overall median survival benefit of 2.4 months for men with docetaxel-pretreated metastatic CRPC receiving cabazitaxel (with prednisone) compared to mitoxantrone (with prednisone). Cabazitaxel is a novel tubulin-binding taxane that differs from docetaxel because of its poor affinity for P-glycoprotein (P-gp), an ATP-dependent drug efflux pump. Cancer cells that express P-gp become resistant to taxanes, and the effectiveness of docetaxel can be limited by its high substrate affinity for P-gp. Preclinical and early clinical studies show that cabazitaxel retains activity in docetaxel-resistant tumors, and this was confirmed by the TROPIC study. Common adverse events with cabazitaxel include neutropenia (including febrile neutropenia) and diarrhea, while neuropathy was rarely observed. Thus, the combination of cabazitaxel and prednisone is an important new treatment option for men with docetaxel-refractory metastatic CRPC, but this agent should be administered cautiously and with appropriate monitoring (especially in men at high risk of neutropenic complications).
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PMID:Cabazitaxel: a novel second-line treatment for metastatic castration-resistant prostate cancer. 2144 49