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Drug
Enzyme
Compound
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Target Concepts:
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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)
We have recently demonstrated that
RLIP76
, a Ral-binding GTPase activating protein mediates ATP-dependent transport of glutathione (GSH) conjugates of electrophiles (GS-E) as well as doxorubicin (DOX), and that it is identical with DNP-SG ATPase, a GS-E transporter previously characterized by us in erythrocyte membranes (Awasthi et al. Biochemistry 39, 9327-9334). Multidrug resistance-associated protein (MRP1) belonging to the family of the ABC-transporters has also been suggested to be a GS-E transporter in human erythrocytes. Using immunological approaches, the present studies were designed to elucidate the relative contributions of
RLIP76
, MRP1, and
P-glycoprotein
(Pgp), in the ATP-dependent transport of GS-E and DOX in human erythrocytes. In Western blot analyses using antibodies against
RLIP76
, a strong expression of
RLIP76
was observed in erythrocytes. Immunohistochemical studies using a fluorescent probe showed association of
RLIP76
with erythrocyte membrane, which was consistent with its transport function. Neither MRP1 nor Pgp were detected in erythrocytes when the antibodies against MRP1 or Pgp were used. In erythrocyte inside-out vesicles (IOVs) coated with antibodies against
RLIP76
, a dose-dependent inhibition of the ATP-dependent transport of DOX and GS-E, including S-(dinitrophenyl)glutathione (DNP-SG), leukotriene C(4), and the GSH conjugate of 4-hydroxynonenal, was observed with a maximal inhibition of about 70%. On the contrary, in the IOVs coated with the antibodies against MRP1 or Pgp no significant inhibition of the ATP-dependent transport of these compounds was observed. These findings suggest that
RLIP76
is the major ATP-dependent transporter of GS-E and DOX in human erythrocytes.
...
PMID:RLIP76 is the major ATP-dependent transporter of glutathione-conjugates and doxorubicin in human erythrocytes. 1143 48
Transport of xenobiotics and their metabolites by ATP-binding cassette (ABC) transporters particularly
P-glycoprotein
(Pgp) and the multidrug resistance associated protein (MRP1) has been extensively studied during last decade. Our recent studies demonstrate that
RLIP76
, a previously known GTPase-activating protein catalyzes ATP-dependent, uphill transport of anionic glutathione conjugates as well as of weakly cationic anthracyclines including doxorubicin (Adriamycin), a widely used drug in cancer chemotherapy.
RLIP76
has inherent ATPase activity, which is stimulated by doxorubicin and glutathione conjugates.
RLIP76
does not meet the criteria for classical ABC proteins such as MRP1 or Pgp, but similar to ABC proteins, it has two ATP-binding sequences, (69)GKKKGK(74) and (418)GGIKDLSK(425). Mutations in these sequences abrogate its ATP-binding, ATPase activity, and transport function. Purified
RLIP76
when reconstituted in proteoliposomes mediates ATP-dependent saturable transport of doxorubicin and glutathione conjugates. Transfection of K562 cells with
RLIP76
confers these cells resistance to doxorubicin and 4-hydroxynonenal. Cells enriched with
RLIP76
also acquire resistance to radiation toxicity.
RLIP76
also catalyzes the transport of physiologic ligands such as leukotrienes (LTC4) and the conjugate of 4-hydroxynonenal and glutathione. In some cells (e.g., erythrocytes and lung cancer cells), the majority of transport activity for Adriamycin and glutathione conjugates including LTC4 is accounted for by
RLIP76
. These studies strongly suggest that
RLIP76
-mediated transport of organic ions has physiological and toxicological relevance and that it may play an important role in the mechanism of drug resistance.
...
PMID:RLIP76, a novel transporter catalyzing ATP-dependent efflux of xenobiotics. 1243 96
RLIP76
functions as an ATP-dependent transporter of amphiphilic chemotherapeutic drugs such as doxorubicin (DOX, adriamycin), as well as of glutathione-conjugates of endogenous electrophilic toxins such as 4-hydroxynonenal (4HNE).
RLIP76
couples transport and ATP-hydrolysis with a 1:1 stoichiometry, making the ATPase activity of
RLIP76
an excellent surrogate for its transport activity. Present studies were performed to determine the relationship of the
RLIP76
ATPase activity with DOX and 4HNE resistance in a panel of 13 native human lung cancer cell lines.
RLIP76
was purified from each cell line and homogeneity demonstrated by SDS-PAGE and amino acid composition analysis. Anti-
RLIP76
antibodies were shown by Ouchterlony double immunodiffusion tests to be non-cross-reactive with any other proteins including
P-glycoprotein
(Pgp) or multidrug resistance associated protein (MRP). These antibodies completely immunoprecipitated ATPase activity of purified
RLIP76
fractions, further confirming homogeneity of purified
RLIP76
.
RLIP76
ATPase purified from NSCLC cell lines was about 2-fold more active than that from SCLC in the absence of the stimulator dinitrophenyl S-glutathione (206+/-47, n=7 vs. 94+/-22, n=6, nmol/min/mg protein, respectively), or in its presence (340+/-60, n=7 vs. 186+/-32, n=6, nmol/min/mg; p<0.01). Partial tryptic digest revealed a 44 kDa internal fragment of
RLIP76
beginning at Thr-294 in NSCLC cell lines. This fragment was absent from all SCLC, suggesting the possibility that the activity of
RLIP76
in SCLC and NSCLC is differentially regulated through post-translational modifications. Taken together, these findings suggest that
RLIP76
activity is a general determinant of 4HNE and DOX resistance, and that its activity contributes to the drug-resistant phenotype of NSCLC.
...
PMID:Role of RLIP76 in lung cancer doxorubicin resistance: I. The ATPase activity of RLIP76 correlates with doxorubicin and 4-hydroxynonenal resistance in lung cancer cells. 1252 36
Transport mechanisms for the exclusion of toxic xenobiotics and their metabolites from cellular environment are crucial for living organisms. Accumulation of these toxins may affect a number of regulatory and other functions, ultimately leading to cell death. This trafficking of toxins and their metabolites is an energy dependent, primary active process, involving the hydrolysis of nucleotide triphosphates (ATP or GTP), while transferring substrate molecules across the cell membrane, against a concentration gradient of the substrate. Therefore, specific membrane associated proteins, known as efflux pumps, are required to remove these undesirable molecules from the cellular environment. These transport proteins have diverse structural characteristics with molecular weights ranging from 28 kDa to 190 kDa and a broad substrate specificity ranging from anionic to weakly cationic compounds. While these transport mechanisms constitute an important part of the cellular defense machinery, they also pose a formidable threat to the efficacy of chemotherapy against pathogenic bacteria and cancer cells. In cancer cells, the over expression of these proteins may confer a multidrug resistance (MDR) phenotype. This problem of MDR in cancer cells has so far been attributed to the two major families of efflux pumps,
P-glycoprotein
(Pgp) and multidrug resistance associated proteins (MRP), which belong to the ATP-binding cassette (ABC) super family. However, the existence of these pumps has not been able to explain all types of acquired MDR. Therefore, the importance of transport mechanisms other than these ABC-transporters cannot be ruled out. One such transporter is DNP-SG ATPase, whose identity has recently been established with
RLIP76
, a Ral binding GTPase activating protein known to be involved in the Ras-Rho-Ral mediated signaling mechanism. In the present article, we review the comparative functional, structural, and molecular characteristics of some transporters and discuss their role in xenobiotic transport and multidrug resistance.
...
PMID:Energy dependent transport of xenobiotics and its relevance to multidrug resistance. 1267 13
