ABCC6 p.Val417Ile
| Predicted by SNAP2: | A: N (57%), C: D (71%), D: D (95%), E: D (95%), F: D (95%), G: D (95%), H: D (95%), I: D (75%), K: D (95%), L: D (91%), M: D (91%), N: D (91%), P: D (95%), Q: D (91%), R: D (95%), S: D (91%), T: D (66%), W: D (95%), Y: D (95%), |
| Predicted by PROVEAN: | A: N, C: N, D: D, E: D, F: D, G: D, H: D, I: N, K: D, L: N, M: N, N: D, P: D, Q: D, R: D, S: N, T: N, W: D, Y: D, |
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[hide] Multidrug resistance associated proteins as determ... Curr Drug Metab. 2007 Dec;8(8):787-802. Yu XQ, Xue CC, Wang G, Zhou SF
Multidrug resistance associated proteins as determining factors of pharmacokinetics and pharmacodynamics of drugs.
Curr Drug Metab. 2007 Dec;8(8):787-802., [PMID:18220559]
Abstract [show]
The multidrug resistance associated proteins (MRP1, MRP2, MRP3, MRP4, MRP5, MRP6, MRP7, MRP8 and MRP9) belong to the ATP-binding cassette superfamily (ABCC family) of transporters. They are expressed differentially in the liver, kidney, intestine, brain and other tissues. These transporters are localized to the apical and/or basolateral membrane of the hepatocytes, enterocytes, renal proximal tubule cells and endothelial cells of the blood-brain barrier. Several MRPs (mainly MRP1-3) are associated with tumor resistance which is often caused by an increased efflux and decreased intracellular accumulation of natural product anticancer drugs and other anticancer agents. MRPs transport a structurally diverse array of important endogenous substances and xenobiotics and their metabolites (in particular conjugates) with different substrate specificity and transport kinetics. Most MRPs are subject to induction and inhibition by a variety of compounds. Several nuclear receptors, including pregnane X receptor (PXR), liver X receptor (LXR), and farnesoid receptor (FXR) participate in the regulation of MRPs. MRPs play an important role in the absorption, distribution and elimination of various drugs in the body and thus may affect their efficacy and toxicity and cause drug-drug interactions. MRPs located in the blood-brain barrier can restrict the penetration of compounds into the central nervous system. Mutation of MRP2 causes Dubin-Johnson syndrome, while mutations in MRP6 are responsible for pseudoxanthoma elasticum. More recently, mutations in mouse Mrp6/Abcc6 gene is associated with dystrophic cardiac calcification (DCC), a disease characterized by hydroxyapatite deposition in necrotic myocytes. A single nucleotide polymorphism, 538G>A in the MRP8/ABCC11 gene, is responsible for determination of earwax type. A better understanding of the function and regulating mechanism of MRPs can help minimize and avoid drug toxicity, unfavourable drug-drug interactions, and to overcome drug resistance.
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405 Important Single Nucleotide Polymorphisms (SNPs) of MRP Genes MRP Chromosomal location Amino acid variation Nucleotide variation Location References Cys43Ser Thr73Ile G128C C218T Exon2 Exon2 [239] Arg433Ser G1299T Exon10 [258] Gly671Val G2012T Exon16 [259] Arg723Gln G2168A Exon17 [239] MRP1 16p13.11-p13.12 Arg1058Gln G3173A Exon23 [239] C-24T Promoter [100, 239] Val417Ile G1249A Exon10 [100, 238, 239] Gly676Arg G2026C Exon16 [237] Try709Arg T2125C Exon17 [236] Arg768Trp Ser789Phe C2302T C2366T Exon18 Exon18 [100, 238, 239] I1173F R1150H A3517T G3449A Exon25 Exon25 [240] Ile1324Ile C3972T Exon28 [100, 239] MRP2 10q23-24 Ala1450Thr G4348A Exon31 [100, 238, 239] (Table 2) contd….
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ABCC6 p.Val417Ile 18220559:405:365
status: NEW