Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P33527 (
ABCC1
)
1,164
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In previous studies, we have cloned and sequenced a 5'-end region of the
multidrug resistance-associated protein (MRP)
gene that contains promoter activity as assessed through transient transfections of constructs contained in a pCAT basic reporter plasmid. In the present study, using a series of deletion mutants, evidence was obtained that the SP1 binding sites contained in the promoter are essential for optimal MRP transcriptional activity. These results were supported by the finding that introduction of site-specific mutations into the wild-type SP1 sequence produced a major reduction in CAT activity. DNase I protection assays also demonstrated that SP1 sites are protected from hydrolysis with proteins from nuclei of a variety of cell lines. Gel mobility-shift assays with proteins extracted from CHO, HeLa, HL60, or HL60/ADR demonstrated the presence of a protein that bound to the wild-type SP1 sequence but not to an SP1 sequence containing site-specific mutations. The mobility shift with nuclear extracts was closely similar to that occurring after incubating purified
SP1 protein
with wild-type SP1 sequence. DNA supershift experiments with antibody to SP1 strongly suggest that the complexes formed with nuclear extracts contain the
SP1 protein
.
...
PMID:Evidence that SP1 modulates transcriptional activity of the multidrug resistance-associated protein gene. 863 38
Multidrug resistance is a major obstacle to the success of cancer chemotherapy. The
multidrug resistance-associated protein (MRP)
has been shown to confer multidrug resistance. To study MRP gene expression at the transcriptional level, we have fused the MRP gene promoter with the luciferase reporter gene and studied its regulation. Cotransfection of MRP promoter constructs with p53 expression plasmids in p53-null human H1299 and mouse (10)1 cells demonstrated that the wild-type (wt) p53 markedly suppressed MRP promoter activity, whereas mutant p53 had little inhibitory effect. Transfections using 5' deletion mutant constructs of the MRP promoter showed that inhibition of the promoter activity by wt p53 mainly resided in the region from -91 to +103 bp, where several
Sp1 transcription factor
binding sites are localized. Cotransfection of the MRP promoter into Drosophila SL2 cells with an
Sp1
expression vector increased the promoter activity in a dose-related manner up to approximately 200-fold. The stimulation of MRP promoter activity by
Sp1
was attenuated by the cotransfection of a wt p53-expression plasmid. Furthermore, we have determined that endogenous MRP mRNA levels were down-regulated by restoration of wt p53-expression in a human lung cancer cell line. The relevance of MRP regulation in drug resistance was studied in a drug-resistant cell line, CEM/VM-1-5, that is approximately 140-fold more resistant to the epipodophyllotoxin, teniposide (VM-26), than the parental CEM cells. CEM/VM-1-5 cells express a much higher amount of MRP mRNA and protein than CEM cells, indicating that the resistant phenotype is at least partly due to increased MRP production. Transient transfection of the promoter constructs revealed that CEM/VM-1-5 cells had higher (7-fold) MRP promoter activity than CEM cells. Cotransfection of a wt p53-expression plasmid caused a reduction of MRP promoter activity in both CEM and CEM/VM-1-5 cells, but the inhibition was more than double in CEM/VM-1-5 cells compared with CEM cells. Our results demonstrated that wt p53 acts as a negative regulator of MRP gene transcription, at least in part by diminishing the effect of a powerful transcription activator
Sp1
. Therefore, a loss of wt p53 function and/or an increase in
Sp1
activity in tumor cells could contribute to an up-regulation of the MRP gene.
...
PMID:Transcriptional suppression of multidrug resistance-associated protein (MRP) gene expression by wild-type p53. 986 34
The gene encoding the ABCC6 protein, an ABC transporter of the
multidrug resistance-associated protein (MRP)
, is mainly expressed in liver and kidney. Mutations in ABCC6 are responsible for the development of the pseudoxanthoma elasticum (PXE) phenotype. PXE is a recessive disease characterized by the calcification of elastic fibers resulting in dermal, vascular, and ocular clinical manifestations. The physiological function of ABCC6 and the rodent orthologs Abcc6 is unknown and their precise relationship to elastic fibers is only a matter of speculation. Despite several studies focused on the transcriptional regulation of ABCC6/Abcc6, the molecular signals conferring the tissue-specificity to the ABCC6/Abcc6 expression are not well defined. In this report, we determined the level of the mouse Abcc6 promoter methylation in tissues with low level of expression (tail extremity and skin), intermediate (kidney), and high level of expression (liver). We observed that high and moderate levels of methylation correlated with low levels of Abcc6 expression. Moreover, we determined that CpG methylation of the Abcc6 proximal promoter region was interfering with the binding of the
Sp1 transcription factor
thereby inhibiting
Sp1
-dependent transactivation. Thus, our data provide the first direct evidence that an epigenetic mechanism regulates the binding of transcription factor Sp1 to the proximal promoter and participates in the tissue-specific expression control of the mouse Abcc6 gene.
...
PMID:DNA methylation and Sp1 binding determine the tissue-specific transcriptional activity of the mouse Abcc6 promoter. 1721 63
