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Drug
Enzyme
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Target Concepts:
Gene/Protein
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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)
The multidrug resistance (MDR)-neutralizing and cytotoxic properties of 16 novel tetramethylpiperidine (TMP)-substituted phenazines were compared with those of clofazimine and B669 using a
P-glycoprotein
(
P-gp
)-expressing undifferentiated, human leukemia cell line (K562/MMB). Unchlorinated TMP-substituted
phenazine
molecules were more cytotoxic than their chlorinated counterparts, while the halogenated molecules, especially those with chlorine atoms at position 3 on the aniline and phenyl rings, were less cytotoxic but more effective as chemosensitizing,
P-gp
-neutralizing agents. One of the TMP-substituted phenazines, B4121, increased the sensitivity of K562/MMB cells to vinblastine by 100-fold. TMP-substituted phenazines are a novel class of pharmacologic anti-cancer agents with both direct cytotoxic, as well as MDR-neutralizing anti-tumor properties.
...
PMID:Novel tetramethylpiperidine-substituted phenazines are potent inhibitors of P-glycoprotein activity in a multidrug resistant cancer cell line. 931 48
Inhibitors of topoisomerases are widely used in the treatment of cancer, including inhibitors of topoisomerase I (camptothecin analogs such as irinotecan and topotecan) and topoisomerase II (etoposide and doxorubicin). The novel bis-
phenazine
, XR5944, is a joint inhibitor of topoisomerase I and II as shown by the stabilization of topoisomerase-dependent cleavable complexes. XR5944 demonstrated exceptional activity against human and murine tumor cells in vitro and in vivo. In a range of cell lines XR5944 (IC50 0.04-0.4 nM) was significantly more potent than TAS-103, originally proposed as a joint topoisomerase I and II inhibitor, as well as agents specific for topoisomerase I or II (topotecan, doxorubicin and etoposide). In addition, XR5944 was unaffected by atypical drug resistance and retained significant activity in cells overexpressing
P-glycoprotein
or multidrug resistance-associated protein. Antitumor efficacy of XR5944 was demonstrated in human carcinoma xenograft models (H69 small cell lung cancer and HT29 colon). In the HT29 model, which is relatively unresponsive to chemotherapy, XR5944 (15 mg/kg i.v., q4dx3) induced tumor regression in the majority of animals (six of eight), whereas TAS-103, dosed at its maximum tolerated dose (45 mg/kg i.v., q7dx3), only induced a delay in tumor growth compared with control animals. In the H69 model, low doses of XR5944 (5 mg/kg i.v., qdx5/week for 2 weeks or 10-15 mg/kg i.v., q4dx3), induced complete tumor regression in the majority of animals. In contrast, topotecan (20 mg/kg i.v., q4dx3) or etoposide (30 mg/kg i.v., q5dx5) only slowed the tumor growth rate. These studies show that XR5944 is a highly active novel anticancer agent that is well tolerated at efficacious doses.
...
PMID:Antitumor activity of XR5944, a novel and potent topoisomerase poison. 1133 93
Heterocyclic phenazinecarboxamides were prepared by condensation of aminoheterocycles and 2-halo-3-nitrobenzoic acids, followed by reductive ring closure and amidation. They showed similar inhibition of paired cell lines that underexpressed topo II or overexpressed
P-glycoprotein
, indicating a non topo II mechanism of cytotoxicity and indifference to
P-glycoprotein
mediated multidrug resistance. Compounds with a fused five-membered heterocyclic ring were generally less potent than the pyrido[4,3-a]phenazines. A 4-methoxypyrido[4,3-a]
phenazine
(IC(50)s 2.5-26 nM) gave modest (ca. 5 day) growth delays in H69/P xenografts with oral dosing.
...
PMID:Structure-activity relationships for pyrido-, imidazo-, pyrazolo-, pyrazino-, and pyrrolophenazinecarboxamides as topoisomerase-targeted anticancer agents. 1180 25
XR11576, a novel
phenazine
, was developed as an inhibitor of both topoisomerase I and II. This study characterized the ability of XR11576 to inhibit both enzymes, and determined its in vitro and in vivo antitumor efficacy against a number of murine and human tumor models. XR11576 was a potent inhibitor of purified topoisomerase I and IIalpha, and exhibited similar potency for both enzymes. The compound stabilized enzyme-DNA cleavable complexes indicating that it acted as a topoisomerase poison. The DNA cleavage patterns obtained with XR11576 were different from those induced by camptothecin and etoposide, which are topoisomerase I and II poisons, respectively. XR11576 demonstrated potent cytotoxic activity against a variety of human and murine tumor cell lines (IC50=6-47 nM). Its activity profile was comparable to or better than that of many widely used anticancer drugs. Moreover, XR11576 was unaffected by multidrug resistance (MDR) mediated by overexpression of either
P-glycoprotein
or MDR-associated protein, or by down-regulation of topoisomerase II. The latter property supports the dual inhibitory mechanism of action of the compound. XR11576 exhibited a similar pharmacokinetic profile in mice and rats after either i.v. or p.o. administration. In vivo XR11576 showed marked efficacy against a number of tumors including sensitive (H69/P) and multidrug-resistant (H69/LX4) small cell lung cancer and the relatively refractory MC26 and HT29 colon carcinomas following i.v. and p.o. administration. The efficacy of XR11576 was at least comparable to that of TAS-103, originally proposed as a dual inhibitor of topoisomerase I and II. These results suggest that XR11576 is a promising new antitumor agent with oral and i.v. activity, and warrants further development.
...
PMID:In vitro and in vivo characterization of XR11576, a novel, orally active, dual inhibitor of topoisomerase I and II. 1191 37
A series of
phenazine
-1-carboxamides were prepared, including variations in both chromophore substituents and the nature of the cationic side chain. The novel side-chain analogues were prepared from the corresponding
phenazine
-1-carboxylic acids via Schmidt conversion to the 1-amines and from the corresponding 1-halides. Structure-cytotoxicity relationships for these compounds in a panel of tumor cell lines showed that there is very limited scope for variation of the structure of the 1-carboxamide side chain, consistent with the recent structural model of how tricyclic carboxamides bind to DNA. There was generally little difference in IC(50)s between parent and
P-glycoprotein
expressing cell lines, suggesting that most of the compounds are not affected by the presence of this efflux pump.
...
PMID:Phenazine-1-carboxamides: structure-cytotoxicity relationships for 9-substituents and changes in the H-bonding pattern of the cationic side chain. 1621 14
Active extrusion of drugs from the cell interior by primary and secondary efflux pumps is an essential mechanism underlying the phenomenon of multidrug resistance. The first discovered and best characterized primary efflux pump found in humans is the ABC transporter
P-glycoprotein
(
PGP
), which shows very broad substrate specificity. Many of these molecules are lipophilic, and binding most likely takes place within the membrane.
PGP
could either translocate them from the inner to the outer leaflet (flippase) or extrude them from the membrane into the extracellular environment (hydrophobic vacuum cleaner). Recognition and binding of such a diverse set of substrates must be associated with a preferred membrane location, determined by molecular properties and lipid interactions. Therefore, a systematic study of the interaction among seven
PGP
substrates (
phenazine
, doxorubicin, cephalexin, ampicillin, chloramphenicol, penicillin G, and quercetin) and two modulators (quinidine and nicardipine) and 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) model membranes is reported here. The location profile of these molecules across the membrane was determined by (1)H NOESY MAS NMR based on (1)H-(1)H cross-peaks between their aromatic fingerprint region and lipid resonances. Although structurally rather diverse, all tested substances are found to have their highest concentration between the phosphate of the lipid headgroup and the upper segments of the lipid hydrocarbon chains. Our findings are consistent with
PGP
substrate and modulator binding from the membrane interface region.
...
PMID:Localization of multidrug transporter substrates within model membranes. 1668 93
