ABCG2 p.His457Ala
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PMID: 20203106
[PubMed]
Cai X et al: "Role of basic residues within or near the predicted transmembrane helix 2 of the human breast cancer resistance protein in drug transport."
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Sentence
Comment
3
K452A, K453D, H457A, R465A, and K473A were stably expressed in human embryonic kidney (HEK) cells, and their plasma membrane expression and transport activities were examined.
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ABCG2 p.His457Ala 20203106:3:14
status: VERIFIED5 After normalization to BCRP levels, the activities of K452A and H457A in effluxing mitoxantrone, boron-dipyrromethene-prazosin, and Hoechst33342 were increased approximately 2to 6-fold compared with those of wild-type BCRP, whereas the activities of K453D and R465A were decreased by 40 to 60%.
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ABCG2 p.His457Ala 20203106:5:64
status: VERIFIED6 Likewise, K452A and H457A conferred increased resistance to mitoxantrone and 7-ethyl-10-hydroxy-camptothecin (SN-38), and K453D and R465A exhibited lower resistance.
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ABCG2 p.His457Ala 20203106:6:20
status: VERIFIED8 These mutations also differentially affected BCRP ATPase activities with a 2to 4-fold increase in Vmax/Km for K452A and H457A and a 40 to 70% decrease for K453D and R465A.
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ABCG2 p.His457Ala 20203106:8:120
status: VERIFIED76 The polymerase chain reaction-based mutagenesis was performed according to the manufacturer`s instructions with the following forward primers: K452A (5Ј-gaa ctc ttt gtg gta gag GCg aag ctc ttc ata cat gaa-3Ј), K453D (5Ј-ctc ttt gtg gta gag aag GaC ctc ttc ata cat gaa tac-3Ј), H457A (5Ј-gag aag aag ctc ttc ata GCt gaa tac atc agc gga tac-3Ј), R465A (5Ј-tac atc agc gga tac tac GCa gtg tca tct tat ttc ctt-3Ј), and K473A (5Ј-tca tct tat ttc ctt gga GCa ctg tta tct gat tta tta-3Ј).
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ABCG2 p.His457Ala 20203106:76:301
status: VERIFIED183 The expression levels of the mutants K452A, K453D, H457A, R465A, and K473A, determined by immunoblotting of whole-cell lysates using beta-actin as an internal standard, were approximately 0.74-, 2.56-, 0.24-, 3.87-, and 1.56-fold that of wild-type BCRP (Fig. 2, A and B).
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ABCG2 p.His457Ala 20203106:183:51
status: VERIFIED191 A, a representative immunoblot of whole-cell lysates for wild-type BCRP and the mutants K452A, K453D, H457A, R465A, and K473A.
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ABCG2 p.His457Ala 20203106:191:102
status: VERIFIED207 After normalization to the BCRP levels of whole-cell lysates, statistically significant differences in efflux activities for all three substrates were noticed for K452A, K453D, H457A, and R465A compared with wild-type protein.
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ABCG2 p.His457Ala 20203106:207:177
status: VERIFIED209 Thus, the efflux activities of K452A and H457A were significantly increased 2to 6-fold, whereas the activities of K453D and R465A were decreased by 40 to 60%, depending on substrate (Table 1).
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ABCG2 p.His457Ala 20203106:209:41
status: VERIFIED210 Notably, the activities of H457A for BODIPY-prazosin and Hoechst33342 were increased 3-to 6-fold, but its activity for MX was increased only 1.7-fold.
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ABCG2 p.His457Ala 20203106:210:27
status: VERIFIED220 After normalization to the BCRP levels, the IC50 values of cells expressing K452A, K453D, H457A, and R465A for MX and SN-38 were significantly different from those of cells expressing wild-type BCRP, whereas the IC50 values of cells expressing K473A and wild-type protein were comparable.
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ABCG2 p.His457Ala 20203106:220:90
status: VERIFIED221 Thus, the relative levels of resistance of K452A and H457A to MX were increased approximately 2to 3-fold compared with wild-type protein, whereas those of K453D and R465A to MX were decreased by 30 to 70%.
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ABCG2 p.His457Ala 20203106:221:53
status: VERIFIED222 Likewise, the relative levels of resistance of H457A to SN-38 were increased approximately 3-fold, whereas those of K453D and R465A to SN-38 were decreased by 50 to 60%.
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ABCG2 p.His457Ala 20203106:222:47
status: VERIFIED232 The Km values of K453D, R465A, and K473A were comparable with that of wild-type protein; however, the Km values of K452A and H457A were decreased by approximately 50 and 70%, respectively, suggesting that these two mutations, particularly the one at position 457, increased the binding affinity of ATP to BCRP.
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ABCG2 p.His457Ala 20203106:232:125
status: VERIFIED235 As a result, the Vmax/Km values of K452A and H457A were increased approximately 210 µm 10 µm 10 µm Wild-type BCRP K452A K453D 10 µm 10 µm10 µm 10 µm H457A R465A K473A Fig. 3.
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ABCG2 p.His457Ala 20203106:235:45
status: VERIFIEDX
ABCG2 p.His457Ala 20203106:235:184
status: VERIFIED241 Selected areas of HEK cells expressing wild-type BCRP and the mutants K452A, K453D, H457A, R465A, and K473A are shown.
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ABCG2 p.His457Ala 20203106:241:84
status: VERIFIED263 Mitoxantrone BODIPY-Prazosin Hoechst33342 ⌬F ⌬FЈ Ratio ⌬F ⌬FЈ Ratio ⌬F ⌬FЈ Ratio pcDNA vector 0 0 0 0 0 0 Wild-type BCRP 11.1 Ϯ 1.5 11.1 Ϯ 1.5 1.0 49.9 Ϯ 13.1 49.9 Ϯ 13.1 1.0 976.5 Ϯ 115.5 976.5 Ϯ 115.5 1.0 K452A 22.0 Ϯ 5.9 29.7 Ϯ 7.9* 2.7 76.6 Ϯ 22.5 103.5 Ϯ 30.4* 2.1 1138.3 Ϯ 134.7 1538.3 Ϯ 182.1* 1.6 K453D 19.1 Ϯ 5.9 7.5 Ϯ 3.3* 0.7 57.7 Ϯ 15.6 22.6 Ϯ 6.1* 0.4 1116.9 Ϯ 132.2 436.3 Ϯ 51.6* 0.4 H457A 4.5 Ϯ 2.1 18.7 Ϯ 8.7* 1.7 40.1 Ϯ 9.7 167.0 Ϯ 40.2* 3.3 1259.5 Ϯ 343.2 5247.9 Ϯ 1429.9* 5.4 R465A 26.1 Ϯ 3.0 6.8 Ϯ 0.8* 0.6 96.5 Ϯ 16.0 24.9 Ϯ 4.1* 0.5 2217.8 Ϯ 255.2 573.1 Ϯ 65.9* 0.6 K473A 22.2 Ϯ 5.0 14.3 Ϯ 3.2 1.3 83.2 Ϯ 17.6 53.3 Ϯ 11.3 1.1 1411.5 Ϯ 166.8 887.7 Ϯ 104.9 0.9 no effect on phycoerythrin fluorescence.
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ABCG2 p.His457Ala 20203106:263:566
status: VERIFIED264 However, the addition of prazosin differentially increased the binding of 5D3 to wild-type BCRP, K452A, K453D, H457A, and R465A in a concentration-dependent manner (Fig. 6), suggesting that the binding equilibrium between prazosin and BCRP could be monitored by measuring the binding of 5D3 to the transporter.
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ABCG2 p.His457Ala 20203106:264:111
status: VERIFIED265 Thus, the apparent dissociation constants of the prazosin complex with wild-type or mutant BCRP were estimated to be 5.3 Ϯ 1.1, 14.7 Ϯ 2.3, 3.1 Ϯ 0.4, 20.1 Ϯ 4.0, and 6.7 Ϯ 1.8 M for wild-type BCRP, K452A, K453D, H457A, and R465A, respectively.
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ABCG2 p.His457Ala 20203106:265:251
status: VERIFIED268 Limited Trypsin Digestion of Wild-Type BCRP and the Mutants H457A and K473A.
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ABCG2 p.His457Ala 20203106:268:60
status: VERIFIED270 Therefore, to provide additional evidence of conformational changes in the BCRP mutants, we performed limited trypsin digestion of plasma membrane preparations of wild-type BCRP and two representative mutants H457A and K473A that showed significant changes in the pattern of 5D3 binding (Fig. 6).
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ABCG2 p.His457Ala 20203106:270:209
status: VERIFIED273 In contrast, significant trypsin cleavage of both H457A and K473A began to occur at a trypsin/protein ratio of 1:100 (Fig. 7, B and C).
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ABCG2 p.His457Ala 20203106:273:50
status: VERIFIED289 Vanadate-sensitive ATPase activities of wild-type and mutant BCRP were measured with plasma membrane preparations over an ATP concentration range of 0 to 5 mM as described. Shown are means Ϯ S.D. of three independent experiments for wild-type BCRP (f), K452A (), K453D (F), H457A (‚), R465A (ࡗ), and K473A (छ).
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ABCG2 p.His457Ala 20203106:289:286
status: VERIFIED297 MX SN-38 Dox Rho123 IC50 Relative Resistance (Ratio) IC50 Relative Resistance (Ratio) IC50 Relative Resistance IC50 Relative Resistance nM nM nM M pcDNA vector 24.0 Ϯ 3.5 2.4 Ϯ 0.3 24.0 Ϯ 8.7 7.26 Ϯ 1.15 Wild-type BCRP 145.1 Ϯ 52.8 6.0 (1.0) 125.3 Ϯ 6.1 52.2 (1.0) 31.5 Ϯ 12.6 1.3 10.97 Ϯ 1.84 1.5 K452A 354.8 Ϯ 68.6 14.8 (3.3)* 103.0 Ϯ 12.5 42.9 (1.1)* 24.2 Ϯ 4.4 1.0 9.27 Ϯ 1.75 1.3 K453D 244.0 Ϯ 99.9 10.2 (0.7)* 136.2 Ϯ 9.9 56.8 (0.4)* 34.0 Ϯ 6.7 1.4 8.22 Ϯ 0.97 1.1 H457A 71.9 Ϯ 12.8 3.0 (2.1)* 90.6 Ϯ 4.6 37.8 (3.0)* 21.8 Ϯ 16.6 0.9 7.61 Ϯ 1.29 1.0 R465A 169.1 Ϯ 49.0 7.0 (0.3)* 224.2 Ϯ 39.7 93.4 (0.5)* 37.9 Ϯ 17.5 1.6 14.65 Ϯ 1.26 2.0 K473A 243.1 Ϯ 114.0 10.1 (1.1) 188.0 Ϯ 19.2 78.3 (0.9) 36.0 Ϯ 10.1 1.5 15.11 Ϯ 1.43 2.1 not Lys452 , Lys453 , and Lys473 , seem to directly participate in the binding of all four substrates.
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ABCG2 p.His457Ala 20203106:297:575
status: VERIFIED309 Notably, replacing Lys452 or His457 with Ala (K452A or H457A) markedly increased the efflux of MX, BODIPY-prazosin, and Hoechst33342 (Table 1).
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ABCG2 p.His457Ala 20203106:309:29
status: VERIFIEDX
ABCG2 p.His457Ala 20203106:309:55
status: VERIFIED310 Likewise, K452A and H457A conferred significantly increased resistance to MX and SN-38 compared with wild-type BCRP (Table 2).
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ABCG2 p.His457Ala 20203106:310:20
status: VERIFIED317 Wild-type BCRP K452A K453D H457A R465A K473A Vmax (nmol Pi/min/mg protein) 18.4 Ϯ 1.8 16.4 Ϯ 1.9 15.1 Ϯ 1.4 3.94 Ϯ 0.07 15.8 Ϯ 2.6 17.1 Ϯ 1.3 Vmax normalized to BCRP level (nmol Pi/min/mg protein) 18.4 Ϯ 1.8 18.4 Ϯ 2.1 7.4 Ϯ 0.7 19.6 Ϯ 0.3 6.7 Ϯ 1.1 17.6 Ϯ 1.3 Km for ATP (mM) 0.69 Ϯ 0.21 0.32 Ϯ 0.15 0.85 Ϯ 0.12 0.17 Ϯ 0.07 0.46 Ϯ 0.11 0.52 Ϯ 0.13 Vmax/Km (nmol Pi/min/mg protein/mM) 26.7 57.5 8.7 115.3 14.6 33.8 0 25 50 75 100 -0.25 0.00 0.25 0.50 0.75 1.00 1.25 Prazosin (µM) ∆F/F0 Fig. 6.
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ABCG2 p.His457Ala 20203106:317:27
status: VERIFIED319 The concentration-dependent effects of prazosin on the binding of 5D3 to wild-type and mutant BCRP over a concentration range of 0 to 100 M were determined by using flow cytometry as described. Shown are means Ϯ S.D. of three independent experiments for the pcDNA control (f), wild-type BCRP (Œ), K452A (छ), K453D (ࡗ), H457A (F), R465A (Ⅺ), and K473A (‚).
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ABCG2 p.His457Ala 20203106:319:351
status: VERIFIED320 1 2 3 4 5 6 7 8 9 Wild-type BCRP 72 43 1 2 3 4 5 6 7 8 9 kDa 34 BCRP fraction: 1.0 1.0 0.9 0.9 0.9 0.7 0.6 0.09 0 72 1 2 3 4 5 6 7 8 9 H457A kDa 43 34 1 2 3 4 5 6 7 8 9 BCRP fraction: 1.0 1.4 1.3 1.3 1.5 1.4 0.5 0 0 K473A kDa 72 43 kDa 34 BCRP fraction: 1.0 1.2 1.0 0.9 0.9 0.9 0.8 0.05 0 Fig. 7.
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ABCG2 p.His457Ala 20203106:320:135
status: VERIFIED321 Trypsin digestion of wild-type BCRP, H457A, and K473A.
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ABCG2 p.His457Ala 20203106:321:37
status: VERIFIED322 Plasma membrane preparations expressing wild-type BCRP, H457A, or K473A (2 g of protein each lane) were subjected to limited trypsin digestion and immunoblotting as described under Materials and Methods.
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ABCG2 p.His457Ala 20203106:322:56
status: VERIFIED328 It is worth noting that K452A and H457A are not selected during evolution.
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ABCG2 p.His457Ala 20203106:328:34
status: VERIFIED363 K452A and H457A were associated with a 50 to 70% decrease in Km and a 2to 5-fold increase in Vmax/Km for ATP hydrolysis, whereas the Vmax/Km values of K453D and R465A were decreased by 40 to 70%, and the Km values of K453D and R465A did not change much (Table 3).
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ABCG2 p.His457Ala 20203106:363:10
status: VERIFIED364 This suggests that ATP binding affinity and/or the efficiency of ATP hydrolysis are increased for K452A and H457A, but decreased for K453D and R465A, thus affecting BCRP activity accordingly.
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ABCG2 p.His457Ala 20203106:364:108
status: VERIFIED375 Prazosin differentially increased 5D3 binding to wild-type BCRP, K452A, K453D, H457A, and R465A, but had little effect on 5D3 binding to K473A (Fig. 6).
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ABCG2 p.His457Ala 20203106:375:79
status: VERIFIED376 Intriguingly, the apparent dissociation constant of the prazosin complex with K452A or H457A was increased approximately 3-to 4-fold compared with wild-type BCRP, suggesting that the association rate of prazosin to BCRP may be decreased and/or prazosin could dissociate from the BCRP-prazosin complex more readily.
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ABCG2 p.His457Ala 20203106:376:87
status: VERIFIED377 Given the nature of gain of function associated with K452A and H457A, a similar observation was reported in which R482T was shown to be much less intensively photolabeled by a photoactive analog of Rho123 than wild-type BCRP (Alqawi et al., 2004), indicating the binding affinity of the photoactive substrate to R482T was decreased even though R482T can effectively transport Rho123, but wild-type BCRP cannot.
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ABCG2 p.His457Ala 20203106:377:63
status: VERIFIED
PMID: 21470105
[PubMed]
Honorat M et al: "Multidrug resistance ABC transporter structure predictions by homology modeling approaches."
No.
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Comment
290
The mutations of Lys452 or His457 into Ala (K452A or H457A) markedly increased the transport secretion of well known substrates of ABCG2 (mitoxantrone, BODIPY-prazosin, and Hoechst33342).
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ABCG2 p.His457Ala 21470105:290:27
status: NEWX
ABCG2 p.His457Ala 21470105:290:53
status: NEW
PMID: 25036722
[PubMed]
Szafraniec MJ et al: "Determinants of the activity and substrate recognition of breast cancer resistance protein (ABCG2)."
No.
Sentence
Comment
192
The replacement of Lys452 or His457 by Ala considerably enhanced the transport of mitoxantrone, BODIPY-prazosin and Hoechst 33342, whereas substitutions of Lys453 and Arg465 significantly decreased the transport of mitoxantrone, BODIPY-prazosin, Hoechst 33342, doxorubicin, SN-38 and rhodamine 123.
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ABCG2 p.His457Ala 25036722:192:29
status: NEW209 Position Type of mutation Effect on the transporter References NBD Lys 86 Met (i) No stimulation of the ATPase activity by prazosin; (ii) no influence on the transport of mitoxantrone Henriksen et al. (2005b) Glu 126 stop, Phe 208 Ser, Ser 248 Phe, Glu 334 stop Inability to transport hematoporphyrin Tamura et al. (2006) Glu 211 Gln Complete abolishment of the ATPase activity and methotrexate transport Hou et al. (2009) Pro 392 Ala Significant reduction in the efflux activity of mitoxantrone, BODIPY-prazosin and Hoechst 33342 Ni et al. (2011) TM1 Gly 406 Ala Gly 410 Ala No influence on the activity of the transporter Polgar et al. (2004) Gly 406 Leu Gly 410 Leu (i) Loss of the ability to transport rhodamine123; (ii) impaired transport of mitoxantrone, Pheide and BODIPY-prazosin Polgar et al. (2004) Extracellular loop 1 Phe 431 Leu (i) Loss of the ability to transport methotrexate; (ii) 10% level of hematoporphyrin transport compared to the WT protein Tamura et al. (2006) Ser 441 Asn Inability to transport hematoporphyrin Tamura et al. (2006) Ser 441 Asn Loss of the ability to transport methotrexate Tamura et al. (2006) TM2 Lys 452 Ala His 457 Ala Increase in transport of mitoxantrone, BODIPY-prazosin and Hoechst 33342 Cai et al. (2010) Lys 453 Ala Arg 465 Ala Decrease in transport of mitoxantrone, BODIPY-prazosin, Hoechst 33342, doxorubicin, SN-38 and rhodamine 123 Cai et al. (2010) TM3 Arg 482 Gly Arg 482 Thr (i) No change in the inhibitory activity of lapatinib; (ii) about two times greater inhibition by ritonavir, saquinavir and nalfinavir than in the WT variant; (iii) gaining the ability to transport rhodamine123 and doxorubicin; (iv) no influence on the transport of mitoxantrone; (v) loss of the ability to transport methotrexate Dai et al. (2008), Gupta et al. (2004), Honjo et al. (2001), Mitomo et al. (2003) Arg 482 Thr (i) Lower IC 50 of cyclosporine A for mutant than for WT variant; (ii) lower elacridar inhibition potency Xia et al. (2007) Arg 482 Lys Complete loss of transport activity Ejendal et al. (2006) Phe 489 Leu Impaired transport of porphyrins, no transport of methotrexate Tamura et al. (2006) Extracellular loop 3 Asn 590 Tyr Over twice reduced transport of mitoxantrone, topotecan, daunorubicin and rhodamine 123 Vethanayagam et al. (2005) Cys 592 Ala/Cys 608 Ala (i) Transport of mitoxantrone almost unchanged; (ii) transport of BODIPY-prazosin significantly impaired Henriksen et al. (2005a) Extracellular loop 3 Cys 603 Ser Cys 592 Ser/Cys 608 Ser Cys 592 Ser/Cys 603 Ser/Cys 608 Ser Diminished susceptibility to the inhibitory activity of fumitremorgin C Shigeta et al. (2010) Cys-less Arg 482 Gly-BCRP Complete loss of the ability to efflux mitoxantrone Liu et al. (2008b) The positions of the amino acid residues refer to the topological model of BCRP proposed by Wang et al. (2009).
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ABCG2 p.His457Ala 25036722:209:1152
status: NEW