ABCB1 p.Gly324Lys
| Predicted by SNAP2: | A: N (66%), C: D (66%), D: N (82%), E: N (93%), F: D (75%), H: N (61%), I: D (53%), K: N (87%), L: D (59%), M: N (53%), N: N (93%), P: N (53%), Q: N (82%), R: N (61%), S: N (82%), T: N (78%), V: N (53%), W: D (85%), Y: D (75%), |
| Predicted by PROVEAN: | A: N, C: D, D: N, E: N, F: N, H: N, I: D, K: N, L: D, M: N, N: N, P: N, Q: N, R: N, S: N, T: N, V: N, W: D, Y: N, |
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[hide] Biochemical, cellular, and pharmacological aspects... Annu Rev Pharmacol Toxicol. 1999;39:361-98. Ambudkar SV, Dey S, Hrycyna CA, Ramachandra M, Pastan I, Gottesman MM
Biochemical, cellular, and pharmacological aspects of the multidrug transporter.
Annu Rev Pharmacol Toxicol. 1999;39:361-98., [PMID:10331089]
Abstract [show]
Considerable evidence has accumulated indicating that the multidrug transporter or P-glycoprotein plays a role in the development of simultaneous resistance to multiple cytotoxic drugs in cancer cells. In recent years, various approaches such as mutational analyses and biochemical and pharmacological characterization have yielded significant information about the relationship of structure and function of P-glycoprotein. However, there is still considerable controversy about the mechanism of action of this efflux pump and its function in normal cells. This review summarizes current research on the structure-function analysis of P-glycoprotein, its mechanism of action, and facts and speculations about its normal physiological role.
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47 Table 1 List of mutations in human, mouse, and hamster P-glycoproteins that affect substrate specificitya aa mutation Region Sourceb Reference H61R, F, K, M, W, Y TM 1 Human MDR1 149, 150 ABC20c G64R TM 1 Human MDR1 150 L65R TM 1 Human MDR1 150 aa78-97 EC 1 Human MDR1 151 Q128Hd TM 2 Mouse mdr3 152 R138H IC 1 Mouse mdr3 152 Q139H, R IC 1 Mouse mdr3 152 Q141V IC 1 Human MDR1 15319, Q145H IC 1 Mouse mdr3 152 E155G, K IC 1 Mouse mdr3 152 F159I IC 1 Mouse mdr3 152 D174G IC 1 Mouse mdr3 152 S176G, P IC 1 Mouse mdr3 152 K177I IC 1 Mouse mdr3 152 N179S IC 1 Mouse mdr3 152 N183S/G185V IC 1 Human MDR1 154 G183D IC 1 Mouse mdr3 152 G185V IC 1 Human MDR1 155-157 G187V IC 1 Human MDR1 153 A192T TM 3 Mouse mdr3 152 F204S EC 2 Mouse mdr3 152 W208G EC 2 Mouse mdr3 152 K209E EC 2 Mouse mdr3 152 L210I TM 4 Mouse mdr3 152 T211P TM 4 Mouse mdr3 152 I214T TM 4 Mouse mdr3 152 P223A TM 4 Human MDR1 158 G288V IC 2 Human MDR1 153 I299M, T319S, L322I, TM 5, EC3, Human MDR1 159 G324K, S351N IC 3 F335A TM 6 Human MDR1 19 F335 TM 6 Human MDR1 160 V338A TM 6 Human MDR1 161 G338A, A339P TM 6 Hamster PGY1 162, 163 A339P TM 6 Hamster PGY1 163 G341V TM 6 Human MDR1 161 K536R, Q N-NBD Human MDR1 164 ERGA → DKGT N-NBD Mouse mdr3 165 aa 522-525 T578C N-NBD Mouse mdr3 165 (Continued) G830V IC 4 Human MDR1 P866A TM 10 Human MDR1 158 F934A TM 11 Mouse mdr3 166 G935A TM 11 Mouse mdr3 166 I936A TM 11 Mouse mdr3 166 F938A TM 11 Mouse mdr3 166 S939A TM 11 Mouse mdr3 166 S939F TM 11 Mouse mdr3 167, 168 S941F TM 11 Mouse mdr1 167, 168 T941A TM 11 Mouse mdr3 166 Q942A TM 11 Mouse mdr3 166 A943G TM 11 Mouse mdr3 166 Y946A TM 11 Mouse mdr3 166 S948A TM 11 Mouse mdr3 166 Y949A TM 11 Mouse mdr3 166 C952A TM 11 Mouse mdr3 166 F953A TM 11 Mouse mdr3 166 F983A TM 12 Human MDR1 169 L975A, V981A, F983A TM 12 Human MDR1 169 M986A, V988A, Q990A, TM 12 Human MDR1 169 V991A V981A, F983A TM 12 Human MDR1 169 L975A, F983A TM 12 Human MDR1 169 L975A, V981A TM 12 Human MDR1 169 F978A TM 12 Human MDR1 19 a aa,amino acid; EC, extracellular loop; IC, intracellular loop; TM,transmembrane domain; NBD, nucleotide binding/utilization domain.
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ABCB1 p.Gly324Lys 10331089:47:967
status: NEW[hide] Analysis of random recombination between human MDR... Mol Pharmacol. 1998 Oct;54(4):623-30. Shoshani T, Zhang S, Dey S, Pastan I, Gottesman MM
Analysis of random recombination between human MDR1 and mouse mdr1a cDNA in a pHaMDR-dihydrofolate reductase bicistronic expression system.
Mol Pharmacol. 1998 Oct;54(4):623-30., [PMID:9765504]
Abstract [show]
Human P-glycoprotein (Pgp) confers multidrug resistance (MDR) to otherwise sensitive cells. The homologous mouse Pgps, which are encoded by mouse mdr1a (also known as mdr3) and mdr1b (also known as mdr1), confer different degrees of resistance to the same MDR drugs and inhibitors. To create recombinants for the study of sequences responsible for these differences in drug-resistance, chimeric cDNA libraries can be constructed by homologous recombination of pools of related sequences. This mutagenesis approach is called DNA shuffling. To select for chimeric Pgp with an altered resistance profile, DNA shuffling between the homologous but not identical drug interacting transmembrane domains 5 and 6 of human MDR1 and mouse mdr1a was used. The chimeric proteins were expressed in human KB-3-1 cells. One recombinant Pgp (clone 3-4) with a novel phenotype was analyzed in detail. Inhibitors of Pgp, including verapamil and cyclosporin A, were less effective in reversing resistance of the chimeric Pgp compared with wild-type Pgp, for certain drugs. However, [125I]iodoarylazidoprazosin photoaffinity labeling of the chimeric Pgp and its binding competition with cyclosporin A, showed that cyclosporin A competed for the photoaffinity labeling. The chimeric Pgp cells stained less well with human-specific anti-Pgp mAb MRK16 than wild-type Pgp, despite having the described epitopes for MRK16. Staining with human-specific mAb UIC2 was increased when the chimeric protein was compared with wild-type Pgp. These results suggest an alteration in exposure of human Pgp specific epitopes in this chimeric Pgp, as well as a change in the interaction of reversing agents with the chimeric protein.
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111 Of the amino acid residues in TM domains 5 and 6 of this clone, 70% were from mouse mdr1a and 30% were from human MDR1, which resulted in five amino acid changes in MDR1: Ile299Met, Thr319Ser, Leu322Ile, Gly324Lys, and Ser351Asn.
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ABCB1 p.Gly324Lys 9765504:111:204
status: NEW158 The major change among the five amino acid changes in MDR1 is Gly324Lys [(i.e., Fig. 8.
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ABCB1 p.Gly324Lys 9765504:158:62
status: NEW[hide] Molecular genetic analysis and biochemical charact... Semin Cell Dev Biol. 2001 Jun;12(3):247-56. Hrycyna CA
Molecular genetic analysis and biochemical characterization of mammalian P-glycoproteins involved in multidrug resistance.
Semin Cell Dev Biol. 2001 Jun;12(3):247-56., [PMID:11428917]
Abstract [show]
A variety of human cancers become resistant or are intrinsically resistant to treatment with conventional drug therapies. This phenomenon is due in large part to the overexpression of a 170 kDa plasma membrane ATP-dependent pump known as the multidrug resistance transporter or P-glycoprotein. P-glycoprotein is a member of the large ATP binding cassette (ABC) superfamily of membrane transporters. This review focuses on the use of structure-function analyses to elucidate further the mechanism of action of mammalian P-glycoproteins. Ultimately, a complete understanding of the mechanism is important for the development of novel strategies for the treatment of many human cancers.
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27 List of mutations in human, mouse and hamster P-gp`s that affect substrate specificity f aaa Mutation Regionb Sourcec Reference aa 78-97 EC 1 human MDR1 78 (ABC20)d Q128He TM 2 mouse mdr3 79 R138H IC 1 mouse mdr3 79 Q139H, R IC 1 mouse mdr3 79 G141V IC 1 human MDR1 25,80 Q145H IC 1 mouse mdr3 79 E155G, K IC 1 mouse mdr3 79 F159I IC 1 mouse mdr3 79 D174G IC 1 mouse mdr3 79 S176F, P IC 1 mouse mdr3 79 K177I IC 1 mouse mdr3 79 N179S IC1 mouse mdr3 79 N183S/G185V IC 1 human MDR1 81 G183D IC1 mouse mdr3 79 G185V IC 1 human MDR1 82-84 G187V IC 1 human MDR1 80 A192T TM 3 mouse mdr3 79 F204S EC 2 mouse mdr3 79 W208G EC 2 mouse mdr3 79 K209E EC 2 mouse mdr3 79 L210I TM 4 mouse mdr3 79 T211P TM 4 mouse mdr3 79 I214T TM 4 mouse mdr3 79 P223A TM 4 human MDR1 85 K285T IC 2 human MDR1 1 G288V IC 2 human MDR1 80 I299M, T319S, L322I, TM 5, EC3, IC 3 human MDR1 86 G324K, S351N V334 TM 6 human MDR1 1 F335A TM 6 human MDR1 25 F335 TM 6 human MDR1 87 V338A TM 6 human MDR1 88 G338A, A339P TM 6 hamster PGY 1 89,90 A339P TM 6 hamster PGY 1 90 G341V TM 6 human MDR1 88 K536R,Q N-NBD human MDR1 91 ERGA→DKGT N-NBD mouse mdr3 92 (aa 522-525) T578C N-NBD mouse mdr3 92 G812V IC 4 human MDR1 80 G830V IC 4 human MDR1 25,80 P866A TM 10 human MDR1 85 F934A TM 11 mouse mdr3 93 G935A TM 11 mouse mdr3 93 I936A TM 11 mouse mdr3 93 F938A TM 11 mouse mdr3 93 S939A TM 11 mouse mdr3 93 S939F TM 11 mouse mdr3 94,95 S941F TM 11 mouse mdr1 94,95 T941A TM 11 mouse mdr3 93 Q942A TM 11 mouse mdr3 93 Table 1-continued aaa Mutation Regionb Sourcec Reference A943G TM 11 mouse mdr3 93 Y946A TM 11 mouse mdr3 93 S948A TM 11 mouse mdr3 93 Y949A TM 11 mouse mdr3 93 C952A TM 11 mouse mdr3 93 F953A TM 11 mouse mdr3 93 F983A TM 12 human MDR1 96 L975A, V981A, F983A TM 12 human MDR1 96 M986A, V988A, TM 12 human MDR1 96 Q990A, V991A V981A, F983A TM 12 human MDR1 96 L975A, F983A TM 12 human MDR1 96 L975A, V981A TM 12 human MDR1 96 F978 TM 12 human MDR1 1 F978A TM 12 human MDR1 25 a aa, amino acid.
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ABCB1 p.Gly324Lys 11428917:27:860
status: NEW[hide] The extracellular loop between TM5 and TM6 of P-gl... Arch Biochem Biophys. 1999 Jul 1;367(1):74-80. Zhou Y, Gottesman MM, Pastan I
The extracellular loop between TM5 and TM6 of P-glycoprotein is required for reactivity with monoclonal antibody UIC2.
Arch Biochem Biophys. 1999 Jul 1;367(1):74-80., [PMID:10375401]
Abstract [show]
P-glycoprotein (P-gp), encoded by the MDR1 gene, is a plasma membrane transporter which confers resistance to many chemotherapeutic drugs. Monoclonal antibodies raised against P-gp have been used as tools to study P-gp topology and activity. Monoclonal antibody UIC2 recognizes a functional conformation of P-gp on the cell surface and blocks P-gp-mediated drug transport. Knowledge about the UIC2 epitope and the mechanism of its inhibitory effects may be helpful for understanding P-gp structure and developing P-gp inhibitors. In the present work, using several chimeras of MDR1 and MDR2, we found that the native sequence of the predicted extracellular loop between transmembrane domains (TM) 5 and 6 of P-gp is necessary, but not sufficient, for UIC2 reactivity. In addition, UIC2 reactivity is also affected by mutations in TM6, a region known to be involved in interactions of P-gp with substrates. These observations suggest that residues in the extracellular loop between TM5 and TM6 are directly involved in the display of the UIC2 epitope. Since TM6 has been shown to be actively involved in drug transport process, the proximity of this region to TM6 may help to explain why UIC2 binding is sensitive to the functional state of P-gp and why binding of UIC2 inhibits P-gp-mediated drug transport.
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66 Those substitutions are T318S, L322I, G324K, S327T, Q330N, V331A, and L332M (Fig. 1).
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ABCB1 p.Gly324Lys 10375401:66:38
status: NEW107 DISCUSSION The Extracellular Loop between TM5 and TM6 Is Essential for UIC2 Recognition In this work, we found that a quadruple substitution of MDR2 residues (T318S, L322I, G324K, and S327T) in the extracellular loop between TM5 and TM6 abolished UIC2 recognition of P-gp.
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ABCB1 p.Gly324Lys 10375401:107:173
status: NEW115 Since the substitutions T318S, L322I, G324K, and S327T had little effect on either MRK-16 labeling or multidrug transporter activity, it is less likely that these mutations produce any major changes in P-gp structure.
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ABCB1 p.Gly324Lys 10375401:115:38
status: NEW106 DISCUSSION The Extracellular Loop between TM5 and TM6 Is Essential for UIC2 Recognition In this work, we found that a quadruple substitution of MDR2 residues (T318S, L322I, G324K, and S327T) in the extracellular loop between TM5 and TM6 abolished UIC2 recognition of P-gp.
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ABCB1 p.Gly324Lys 10375401:106:173
status: NEW114 Since the substitutions T318S, L322I, G324K, and S327T had little effect on either MRK-16 labeling or multidrug transporter activity, it is less likely that these mutations produce any major changes in P-gp structure.
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ABCB1 p.Gly324Lys 10375401:114:38
status: NEW