Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent progress in development of molecular cancer therapeutics revealed new types of antitumor drugs, such as Herceptin, Gleevec, and Iressa as potent therapeutics for each specific tumor. We have been working on molecular cancer therapeutics, and in particular, those related to drug resistance, Here, I describe several resistance mechanisms, including apoptosis regulation, cellular stress response and cellular survival signals which have show close relevance to drug resistance. P-glycoprotein (P-gp) is the key molecule in multidrug resistance (MDR) and a good target for chemotherapy. Proteasome is involved in the resistance mechanism to topo II-targeted chemotherapy in solid tumors. Apoptosis program in tumor cells plays a critical role in chemotherapy-induced tumor cell killing, and the blockade of the apoptosis-inducing pathway could be another mechanism for drug resistance. Glyoxalase I is a molecule involved in apoptosis resistance mechanism in tumors. Survival (antiapoptosis) signals are the good targets for various antitumor drugs to overcome innate drug resistance. Our present studies provide novel targets for effective molecular cancer therapeutics in future.
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PMID:Molecular cancer therapeutics: recent progress and targets in drug resistance. 1270 87

Proteasome inhibitors display potent anti-neoplastic and anti-angiogenic properties both in vitro and in vivo. The mechanisms, however, by which proteasome inhibitors kill tumor cells are still fairly elusive as is the molecular basis of resistance to treatment. To address these questions, we employed a high-throughput Western blotting procedure to analyze changes in a subproteome of approximately 800 proteins in the promyelocytic leukemia cell line HL-60 upon treatment with the proteasome inhibitor PSI (Z-Ile-Glu(OtBu)-Ala-Leu-aldehyde) and correlated the changes of selected target proteins with the changes in two multidrug-resistant HL-60 variants. In total, 105 proteins were upregulated more than 1.5-fold after PSI treatment, while 79 proteins were downregulated. Activation of caspases-3 and -8, modulation of members of the Bcl-2 family as well as stimulation of stress signaling pathways was prominent during HL-60 apoptosis. We also identified changes in the abundance of proteins previously not known to be affected by proteasome inhibitors. In contrast, two multidrug-resistant HL-60 cell lines, overexpressing either MRP1 or P-glycoprotein were largely resistant to PSI-induced apoptosis and could not be resensitized by the pharmacological inhibitors of the drug efflux pumps MK571 or PSC833. Drug resistance was also independent of the upregulation of Bad. Overexpression of multidrug resistance proteins, P-glycoprotein and MRP-1 is thus not sufficient to explain resistance of HL-60 cells to treatment with proteasome inhibitor PSI, which remains more closely related to a low level of Bax expression and to the inability to activate JNK. Alternative routes to the acquisition of resistance to PSI have therefore to be considered.
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PMID:Analysis of changes in the proteome of HL-60 promyeloid leukemia cells induced by the proteasome inhibitor PSI. 1846 79

The ubiquitin proteasome pathway is the major mechanism used by eukaryotic cells for degradation of proteins. Bortezomib, a highly potent and specific inhibitor of the proteasome, has been demonstrated to have activity against multiple myeloma as a single agent in phase I and II clinical trials. Modulation of proteasome function with agents such as bortezomib may also have a significant role in combination chemotherapy, however, by impacting upon mechanisms that overcome chemoresistance and support chemosensitization. Proteasome inhibition seems to be able to overcome Bcl-2-mediated suppression of apoptosis, P-glycoprotein-mediated multidrug resistance, and inducible resistance through nuclear factor kappa B. Preclinical studies with bortezomib and other agents have provided evidence of sensitization to several classes of chemotherapeutics that are used against multiple myeloma. Preliminary reports from phase I trials using bortezomib in combination with some of these standard cytotoxics have not found any pharmacologic interactions, and toxicities were not significantly increased with these regimens. Moreover, they have shown promising results, with documented major responses in patients who have previously progressed on the standard cytotoxic alone, and also high overall response rates. These findings are consistent with the possibility that bortezomib can act clinically as a chemosensitizing agent, and strongly support further studies of these regimens.
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PMID:Bortezomib in combination with other therapies for the treatment of multiple myeloma. 1979 24

P-glycoprotein (P-gp) is a critical determinant of multidrug resistance in cancer. We previously reported that MAPK inhibition downregulates P-gp expression and that P-gp undergoes ubiquitin-proteasomal degradation regulated by UBE2R1 and SCFFbx15. Here, we investigated the crosstalk between MAPK inhibition and the ubiquitin-proteasomal degradation of P-gp. Proteasome inhibitors or knockdown of FBXO15 and/or UBE2R1 cancelled MEK inhibitor-induced P-gp downregulation. RSK1 phosphorylated Thr162 on UBE2R1 but did not phosphorylate FBXO15. MEK and RSK inhibitors increased UBE2R1-WT but not UBE2R1-T162D and -T162A expression. UBE2R1-T162D showed higher self-ubiquitination and destabilisation than UBE2R1-WT and -T162A. Unlike UBE2R1-WT and -T162A, UBE2R1-T162D did not induce P-gp ubiquitination. UBE2R1-WT or -T162A downregulated P-gp expression and upregulated rhodamine 123 level and sensitivity to vincristine and doxorubicin. However, UBE2R1-T162D did not confer any change in P-gp expression, rhodamine 123 accumulation and sensitivity to the drugs. These results suggest that RSK1 protects P-gp against ubiquitination by reducing UBE2R1 stability.
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PMID:RSK1 protects P-glycoprotein/ABCB1 against ubiquitin-proteasomal degradation by downregulating the ubiquitin-conjugating enzyme E2 R1. 2778 5

Phthalazinones are important nitrogen-rich heterocyclic compounds which have been a topic of considerable medicinal interest because of their diversified pharmacological activities. This versatile scaffold forms a common structural feature for many bioactive compounds, which leads to the design and development of novel anticancer drugs with fruitful results. The current review article discusses the progressive development of novel phthalazinone analogues that are targets for various receptors such as PARP, EGFR, VEGFR-2, Aurora kinase, Proteasome, Hedgehog pathway, DNA topoisomerase and P-glycoprotein. It describes mechanistic insights into the anticancer properties of phthalazinone derivatives and also highlights various simple and economical techniques for the synthesis of phthalazinones.
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PMID:Phthalazinone Scaffold: Emerging Tool in the Development of Target Based Novel Anticancer Agents. 3276 57