ABCC1 p.Glu535Ala
Predicted by SNAP2: | A: D (71%), C: D (71%), D: D (75%), F: D (85%), G: D (75%), H: D (80%), I: D (85%), K: D (91%), L: D (80%), M: D (80%), N: D (75%), P: D (91%), Q: D (75%), R: D (91%), S: D (80%), T: D (80%), V: D (75%), W: D (91%), Y: D (80%), |
Predicted by PROVEAN: | A: D, C: D, D: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, Y: D, |
[switch to compact view]
Comments [show]
None has been submitted yet.
[hide] Expression and function of human MRP1 (ABCC1) is d... J Biol Chem. 2011 Mar 4;286(9):7202-13. Epub 2010 Dec 20. Iram SH, Cole SP
Expression and function of human MRP1 (ABCC1) is dependent on amino acids in cytoplasmic loop 5 and its interface with nucleotide binding domain 2.
J Biol Chem. 2011 Mar 4;286(9):7202-13. Epub 2010 Dec 20., 2011-03-04 [PMID:21177244]
Abstract [show]
Multidrug resistance protein 1 (MRP1) is an ATP-binding cassette transporter that effluxes drugs and organic anions across the plasma membrane. The 17 transmembrane helices of MRP1 are linked by extracellular and cytoplasmic loops (CLs), but their role in coupling the ATPase activity of MRP1 to the translocation of its substrates is poorly understood. Here we have examined the importance of CL5 by mutating eight conserved charged residues and the helix-disrupting Gly(511) in this region. Ala substitution of Lys(513), Lys(516), Glu(521), and Glu(535) markedly reduced MRP1 levels. Because three of these residues are predicted to lie at the interface of CL5 and the second nucleotide binding domain (NBD2), a critical role is indicated for this region in the plasma membrane expression of MRP1. Further support for this idea was obtained by mutating NBD2 amino acids His(1364) and Arg(1367) at the CL5 interface, which also resulted in reduced MRP1 levels. In contrast, mutation of Arg(501), Lys(503), Glu(507), Arg(532), and Gly(511) had no effect on MRP1 levels. Except for K503A, however, transport by these mutants was reduced by 50 to 75%, an effect largely attributable to reduced substrate binding and affinity. Studies with (32)P-labeled azido-ATP also indicated that whereas ATP binding by the G511I mutant was unchanged, vanadate-induced trapping of azido-ADP was reduced, indicating changes in the catalytic activity of MRP1. Together, these data demonstrate the multiple roles for CL5 in the membrane expression and function of MRP1.
Comments [show]
None has been submitted yet.
No. Sentence Comment
47 To generate point mutations in CL5, plasmid pBluescriptSK(ϩ)BamHI/SpHI-MRP1 containing a 1.9-kb fragment from pcDNA3.1(-)-MRP1k was used as the template with the following mutagenic primers (substituted nucleotides are underlined): R501A, 5Ј-GAG CAA AGA CAA TGC GAT CAA GCT GAT G-3Ј; K503A, 5Ј-GAC AAT CGG ATC GCG CTG ATG AAC G-3Ј; E507A, 5Ј-GCT GAT GAA CGC AAT TCT CAA TGG G-3Ј; G511I, 5Ј-CTC AAT ATT ATC AAA GTG CTA AAG CTT TAT GCC TGG GAG CTG GC-3Ј; K513A, 5Ј-CTC AAT GGG ATC GCA GTG CTA AAG C-3Ј; K513R, 5Ј-CTC AAT GGG ATC AGA GTG CTA AAG C-3Ј; K516A, 5Ј-GAT CAA AGT GCT AGC GCT TTA TGC CTG-3Ј; K516R, 5Ј-GAT CAA AGT GCT AAG ACT TTA TGC CTG-3Ј; E521A, 5Ј-CTT TAT GCC TGG GCG CTG GCA TTC-3Ј; E521D, 5Ј-CTT TAT GCC TGG GAC CTG GCA TTC-3Ј; R532A, 5Ј-GTG CTG GCC ATT GCG CAG GAG GAG CT-3Ј; E535A, 5Ј-CAT CAG GCA GGA GGC CTT GAA GGT GCT GAA G-3Ј; and E535D, 5Ј- CAG GCA GGA GGA TCT GAA GGT GCT GAA G-3Ј.
X
ABCC1 p.Glu535Ala 21177244:47:928
status: NEW110 Densitometric analysis of immunoblots showed that the K516A, E521A, and E535A mutants were consistently expressed very poorly (levels Ͻ10% of wild-type MRP1), whereas the levels of K513A were reduced by Ͼ70% (Fig. 2).
X
ABCC1 p.Glu535Ala 21177244:110:72
status: NEW116 A marked increase in the levels of the K513A, K516A, E521A, and E535A mutants was observed in cells incubated at the lower temperature; however, most of this increase was attributable to the underglycosylated form of the MRP1. Furthermore, despite the increase, the levels of K513A, K516A, E521A, and E535A FIGURE 2.
X
ABCC1 p.Glu535Ala 21177244:116:64
status: NEWX
ABCC1 p.Glu535Ala 21177244:116:301
status: NEW118 Shown is a representative immunoblot of whole cell lysates (WCL) (10 g of protein/lane) prepared from HEK293T cells transfected with wild-type (WT-MRP1) and mutant (K513A, K516A, E521A, and E535A) cDNA expression vectors. Untransfected cells were used as a negative control. MRP1 proteins were detected with mAb QCRL-1 (top), and the relative levels, estimated by densitometry, are indicated below the blot (after correction for loading based on ␣-tubulin levels detected using an anti-␣-tubulin mAb (bottom)).
X
ABCC1 p.Glu535Ala 21177244:118:198
status: NEW122 A, immunoblots of whole cell lysates (WCL) (10 g of protein/lane) prepared from HEK293T cells incubated at 28 °C for 60 h after transfection with mutant (K513A, K516A, E521A, and E535A) and wild-type MRP1 cDNA expression vectors.
X
ABCC1 p.Glu535Ala 21177244:122:192
status: NEW135 Thus, at 37 °C the MRP1 signals from cells expressing the K513A, E521A, and E535A mutants were very faint; however, the signals were found mostly at the plasma membrane as observed for wild-type MRP1 (Fig. 3B).
X
ABCC1 p.Glu535Ala 21177244:135:81
status: NEW138 On the other hand, when cells were incubated at 28 °C, the amount of mutant proteins increased (more so for K513A and K516A than for E521A and E535A) (Fig. 3, A and C).
X
ABCC1 p.Glu535Ala 21177244:138:148
status: NEW140 Although the "rescue" of K516A and K513A was greater than for E521A and E535A (Fig. 3A), the retention of K516A and K513A in the endoplasmic reticulum was more pronounced, whereas a small amount of E521A and E535A could be detected at the plasma membrane (Fig. 3C).
X
ABCC1 p.Glu535Ala 21177244:140:72
status: NEWX
ABCC1 p.Glu535Ala 21177244:140:208
status: NEW210 Of the charged amino acid mutants, only K503A exhibited properties comparable with those of wild-type MRP1, whereas the seven remaining Ala-substituted mutants were either poorly expressed (K513A, K516A, E521A, and E535A) or exhibited significantly reduced transport activity (R501A, E507A, and R532A).
X
ABCC1 p.Glu535Ala 21177244:210:215
status: NEW213 The substantially reduced levels of the K513A, K516A, E521A, and E535A mutants indicates that introducing a neutral cavity-creating Ala residue at these positions is not compatible with some aspect(s) of MRP1 biosynthesis or assembly, at least in HEK cells. When cells transfected with the FIGURE 7.
X
ABCC1 p.Glu535Ala 21177244:213:65
status: NEW223 Role of Cytoplasmic Loop 5 in MRP1 Expression and Function 7210 JOURNAL OF BIOLOGICAL CHEMISTRY VOLUME 286•NUMBER 9•MARCH 4, poorly expressed mutant MRP1 cDNA expression vectors were incubated at a subphysiological temperature, marked increases in the levels of the K513A, K516A, E521A, and E535A mutants were observed, although they remained well below those of wild-type MRP1 and consisted of both mature and underglycosylated forms of the transporter.
X
ABCC1 p.Glu535Ala 21177244:223:306
status: NEW233 If such interdomain interactions exist and are important for the proper folding and assembly of MRP1, it was reasonable to expect that, as we observed for the Ala substitution of Glu535 , replacing His1049 with Ala would also affect the levels of MRP1.
X
ABCC1 p.Glu535Ala 21177244:233:159
status: NEW234 Indeed, this was the case, although the reduction in E535A protein levels was significantly greater (Ͼ90%) than the reduction observed for H1049A (60%).
X
ABCC1 p.Glu535Ala 21177244:234:53
status: NEW[hide] Mutation of Glu521 or Glu535 in cytoplasmic loop 5... J Biol Chem. 2012 Mar 2;287(10):7543-55. Epub 2012 Jan 9. Iram SH, Cole SP
Mutation of Glu521 or Glu535 in cytoplasmic loop 5 causes differential misfolding in multiple domains of multidrug and organic anion transporter MRP1 (ABCC1).
J Biol Chem. 2012 Mar 2;287(10):7543-55. Epub 2012 Jan 9., [PMID:22232552]
Abstract [show]
The polytopic 5-domain multidrug resistance protein 1 (MRP1/ABCC1) extrudes a variety of drugs and organic anions across the plasma membrane. Four charged residues in the fifth cytoplasmic loop (CL5) connecting transmembrane helix 9 (TM9) to TM10 are critical for stable expression of MRP1 at the plasma membrane. Thus Ala substitution of Lys(513), Lys(516), Glu(521), and Glu(535) all cause misfolding of MRP1 and target the protein for proteasome-mediated degradation. Of four chemical chaperones tested, 4-phenylbutyric acid (4-PBA) was the most effective at restoring expression of MRP1 mutants K513A, K516A, E521A, and E535A. However, although 4-PBA treatment of K513A resulted in wild-type protein levels (and activity), the same treatment had little or no effect on the expression of K516A. On the other hand, 4-PBA treatment allowed both E521A and E535A to exit the endoplasmic reticulum and be stably expressed at the plasma membrane. However, the 4-PBA-rescued E535A mutant exhibited decreased transport activity associated with reduced substrate affinity and conformational changes in both halves of the transporter. By contrast, E521A exhibited reduced transport activity associated with alterations in the mutant interactions with ATP as well as a distinct conformational change in the COOH-proximal half of MRP1. These findings illustrate the critical and complex role of CL5 for stable expression of MRP1 at the plasma membrane and more specifically show the differential importance of Glu(521) and Glu(535) in interdomain interactions required for proper folding and assembly of MRP1 into a fully transport competent native structure.
Comments [show]
None has been submitted yet.
No. Sentence Comment
7 Of four chemical chaperones tested, 4-phenylbutyric acid (4-PBA) was the most effective at restoring expression of MRP1 mutants K513A, K516A, E521A, and E535A.
X
ABCC1 p.Glu535Ala 22232552:7:153
status: NEW9 On the other hand, 4-PBA treatment allowed both E521A and E535A to exit the endoplasmic reticulum and be stably expressed at the plasma membrane.
X
ABCC1 p.Glu535Ala 22232552:9:58
status: NEW10 However, the 4-PBA- rescued E535A mutant exhibited decreased transport activity associated with reduced substrate affinity and conformational changes in both halves of the transporter.
X
ABCC1 p.Glu535Ala 22232552:10:28
status: NEW54 Transfections, Preparation of Membrane Vesicles, and Measurements of MRP1 Protein Levels in Transfected HEK Cells-The generation of wild-type, K513A, K516A, E521A, and E535A mutant MRP1 pcDNA3.1 expression vectors has been described previously (19, 21).
X
ABCC1 p.Glu535Ala 22232552:54:168
status: NEW92 RESULTS Proteasome Inhibition Restores Expression Levels of K513A, K516A, E521A, and E535A Mutants-To better understand the molecular mechanisms responsible for the poor expression of CL5 mutants K513A, K516A, E521A, and E535A in HEK cells, we first investigated whether proteasome-mediated degradation of the mutants might be involved.
X
ABCC1 p.Glu535Ala 22232552:92:85
status: NEWX
ABCC1 p.Glu535Ala 22232552:92:221
status: NEW94 As shown in Fig. 1C, mutants K513A, K516A, E521A, and E535A were present at very low or nondetectable levels in HEK cells in the absence of MG-132, but after exposure to this proteasome inhibitor (2.5 M for 16 h), levels of the mutants were substantially increased, in some cases to levels comparable with wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:94:54
status: NEW100 Moreover, under these conditions a significant portion of three of the bortezomib-rescued mutant proteins (K513A, E521A, and E535A) migrated as the fully glycosylated mature form of MRP1.
X
ABCC1 p.Glu535Ala 22232552:100:125
status: NEW105 As shown in Fig. 2C, signals corresponding to the K516A, E521A, and E535A mutants at the plasma membrane remained substantially lower than for wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:105:68
status: NEW106 The four mutants also showed some (but not exclusive) co-localization with calnexin, indicating that a significant fraction of the FIGURE 1. Effect of proteasome inhibition by MG-132 on levels of MRP1 CL5 mutant proteins K513A, K516A, E521A, and E535A.
X
ABCC1 p.Glu535Ala 22232552:106:246
status: NEW109 C, representative immunoblots of whole cell lysates (WCL) prepared from HEK293T cells transfected with wild-type (WT-MRP1) and mutant (K513A, K516A, E521A, and E535A) MRP1 cDNAexpressionvectorsafterexposuretoMG-132(2.5M for16h).Untransfectedcellswereusedasanegativecontrol,andMRP1proteinsweredetectedwith mAb QCRL-1. Equal protein loading was confirmed by blotting for ␣-tubulin.
X
ABCC1 p.Glu535Ala 22232552:109:160
status: NEW114 We have now investigated the effect of several commonly used low molecular weight chemical chaperones on the levels and trafficking of K513A, K516A, E521A, and E535A.
X
ABCC1 p.Glu535Ala 22232552:114:160
status: NEW120 Levels of E521A and E535A were most effectively restored by 4-PBA treatment with only modest increases observed after treatment with glycerol, DMSO, or PEG.
X
ABCC1 p.Glu535Ala 22232552:120:20
status: NEW122 Effect of 4-PBA on Levels and Localization of K513A, K516A, E521A, and E535A-The effect of 4-PBA was further explored by determining the concentration and time dependence of its ability to increase levels of the four CL5 mutants.
X
ABCC1 p.Glu535Ala 22232552:122:71
status: NEW127 As observed with other chemical treatments, the mutant K516A protein was mostly FIGURE 2. Effect of bortezomib on the levels and localization of MRP1 CL5-processing mutants K513A, K516A, E521A, and E535A.
X
ABCC1 p.Glu535Ala 22232552:127:198
status: NEW128 A and B, shown are representativeimmunoblotsofwholecelllysates(WCL)preparedfromHEK293Tcellstransfectedwithwild-type(WT-MRP1)andmutant(K513A,K516A,E521A, and E535A) MRP1 cDNA expression vectors and exposed to bortezomib (100 nM for 24 h).
X
ABCC1 p.Glu535Ala 22232552:128:157
status: NEW138 After 48 h of 4-PBA treatment, levels of K513A, E521A, and E535A were further increased, whereas K516A levels remained unchanged.
X
ABCC1 p.Glu535Ala 22232552:138:59
status: NEW141 As shown in Fig. 4C, MRP1 signals from three of four 4-PBA-rescued mutants (K513A, E521A, and E535A) were mostly at the plasma membrane as observed for wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:141:94
status: NEW144 Functional Characterization of CL5 Mutants Rescued by 4-PBA-To determine if the 4-PBA-rescued K513A, E521A, and E535A mutants were functional, their vesicular transport activities were measured using the prototypical MRP1 substrates LTC4 and E217betaG.
X
ABCC1 p.Glu535Ala 22232552:144:112
status: NEW146 Immunoblots showed that, consistent with results in cell lysates (Fig. 4, A and B), levels of the 4-PBA-rescued K513A mutant in membrane vesicles were comparable with wild-type MRP1 levels in vesicles from untreated cells, whereas levels of the rescued E521A and E535A mutants were moderately reduced (ϳ40%) (Fig. 5A).
X
ABCC1 p.Glu535Ala 22232552:146:263
status: NEW149 By contrast, the E521A and E535A mutants showed a 45-55% decrease in [3 H]E217betaG and [3 H]LTC4 uptake (even after differences in MRP1 levels were taken into account).
X
ABCC1 p.Glu535Ala 22232552:149:27
status: NEW150 These results indicate that although the 4-PBA-rescued K513A mutant appears fully functional, this is not the case for the E521A and E535A mutants.
X
ABCC1 p.Glu535Ala 22232552:150:133
status: NEW151 The reduced transport activity of the 4-PBA-rescued E521A and E535A mutants was further investigated by determining the kinetic parameters of E217betaG and LTC4 vesicular uptake.
X
ABCC1 p.Glu535Ala 22232552:151:62
status: NEW154 In contrast, the E535A mutant exhibited a 3-6-fold increase in its Km values (22 M for E217betaG and 478 nM for LTC4) relative to wild-type MRP1, whereas the Vmax values FIGURE 3. Effect of chemical chaperones on levels of wild-type and K513A, K516A, E521A, and E535A mutant proteins.
X
ABCC1 p.Glu535Ala 22232552:154:17
status: NEWX
ABCC1 p.Glu535Ala 22232552:154:270
status: NEW155 Shown are representativeimmunoblotsofwholecelllysates(10gofprotein/lane)preparedfrom HEK293T cells transfected with wild-type (WT-MRP1) and mutant (K513A, K516A, E521A, and E535A) cDNA expression vectors.
X
ABCC1 p.Glu535Ala 22232552:155:181
status: NEW174 These differences in kinetic parameters indicate that the mechanisms responsible for the reduced transport activities of the 4-PBA-rescued E521A and E535A mutants differ.
X
ABCC1 p.Glu535Ala 22232552:174:149
status: NEW175 Decreased Transport of E535A Mutant Is Associated with Diminished Photolabeling by [3 H]LTC4-To further examine the interaction of the 4-PBA-rescued E521A and E535A mutants with LTC4, membrane vesicles enriched for the wild-type or mutant MRP1 proteins were photolabeled with [3 H]LTC4.
X
ABCC1 p.Glu535Ala 22232552:175:23
status: NEWX
ABCC1 p.Glu535Ala 22232552:175:159
status: NEW176 As shown in Fig. 6A, [3 H]LTC4 labeling of the E521A mutant was comparable with labeling of wild-type MRP1, whereas labeling of the E535A mutant was decreased by 40% (after correcting for differences in protein levels).
X
ABCC1 p.Glu535Ala 22232552:176:132
status: NEW178 Nucleotide Interactions of Mutants E521A and E535A-Because its apparent affinity (Km) for LTC4 and E217betaG and its photolabeling by [3 H]LTC4 were not significantly different from wild-type MRP1, the possibility that the transport defect of the 4-PBA-rescued E521A mutant could involve altered nucleotide interactions was explored.
X
ABCC1 p.Glu535Ala 22232552:178:45
status: NEW179 In these experiments, in addition to wild-type MRP1, the Glu535 mutant was included as a "control" because (a) Glu535 is predicted to lie outside the CL5/NBD2 interface region and thus is unlikely to be involved in the catalytic activity of the transporter (11, 19), and (b) the reduced transport activity of the E535A mutant appears to be accounted for by changes in Km rather than Vmax (Table 1).
X
ABCC1 p.Glu535Ala 22232552:179:313
status: NEW180 Thus, the ability of E521A, E535A, and wild-type MRP1 to bind ATP was first assessed by photolabeling the proteins with 8-azido-[␣-32 P]ATP under conditions of minimal hydrolysis (4 °C).
X
ABCC1 p.Glu535Ala 22232552:180:28
status: NEW181 As shown in Fig. 6B, photolabeling of the rescued E535A mutant and wild-type MRP1 were comparable, whereas photolabeling of the rescued E521A mutant was ϳ30% less.
X
ABCC1 p.Glu535Ala 22232552:181:50
status: NEW183 As shown in Fig. 6C, [32 P]ADP trapping by the 4-PBA- rescued E521A mutant was reduced by 40%, whereas trapping by the E535A mutant was comparable with wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:183:119
status: NEW184 Further evidence that the nucleotide interactions of 4-PBA- rescued E521A differs from E535A and wild-type MRP1 was obtained by determining the relative Km(ATP) values of the two FIGURE 5. Effect of 4-PBA on the levels and vesicular transport activities of the K513A, E521A, and E535A mutant MRP1 proteins.
X
ABCC1 p.Glu535Ala 22232552:184:87
status: NEWX
ABCC1 p.Glu535Ala 22232552:184:279
status: NEW185 A, shown is a representative immunoblot of membrane vesicles (1 g of protein/lane) prepared from HEK293T cells incubated for 48 h in the presence of 5 mM 4-PBA after transfection with wild-type (WT-MRP1) and mutant (K513A, E521A, and E535A) cDNA expression vectors.
X
ABCC1 p.Glu535Ala 22232552:185:242
status: NEW193 TABLE 1 Kinetic parameters of E217betaG and LTC4 uptake by 4-PBA-rescued MRP1 mutants E521A and E535A Km and Vmax values for E217betaG and LTC4 uptake by membrane vesicles prepared from HEK293T cells transfected with wild-type or mutant proteins were determined by measuring ATP-dependent uptake of the indicated 3 H-labeled organic anion at eight different concentrations as described under "Experimental Procedures."
X
ABCC1 p.Glu535Ala 22232552:193:96
status: NEW195 The values shown are the means of results from two independent experiments. Transfectant Km Vmax a E217betaG LTC4 E217betaG LTC4 M nM pmol-1 mg-1 min-1 WT-MRP1 4.0 134 791 302 E521A 5.5 131 251 122 E535A 22.0 483 920 289 a Vmax values have been corrected to take into account differences in levels of the mutant proteins relative to wild-type MRP1 (WT-MRP1).
X
ABCC1 p.Glu535Ala 22232552:195:206
status: NEW197 As summarized in Table 2, the Km(ATP) values of E521A for both E217betaG and LTC4 uptake were ϳ2.5-fold lower than those for both wild-type MRP1 and E535A.
X
ABCC1 p.Glu535Ala 22232552:197:155
status: NEW199 Mutations E521A and E535A Cause Distinct Conformational Changes in MRP1-Because the mechanisms responsible for the reduced transport activities of the 4-PBA-rescued E521A and E535A mutants differed, it was of interest to determine whether differences in the conformation of the two mutant proteins were involved.
X
ABCC1 p.Glu535Ala 22232552:199:20
status: NEWX
ABCC1 p.Glu535Ala 22232552:199:175
status: NEW201 Consequently, membrane vesicles containing wild-type MRP1 and 4-PBA-rescued E521A and E535A were subjected to limited trypsinolysis, and tryptic fragments were detected by serial immunoblotting with MRP1-specific antibodies directed against epitopes in both the NH2-proximal half (mAbs MRPr1 and 42.4) (MSD0-MSD1-NBD1) (Fig. 7A) and the COOH-proximal half (mAbs MRPm6, 897.2 and MRPm5) (MSD2-NBD2) (Fig. 8A) of the transporter.
X
ABCC1 p.Glu535Ala 22232552:201:86
status: NEW208 When immunoblots of the E521A and E535A mutants were probed with mAb 42.4, reduced levels of the N1 fragment were detected relative to wild-type MRP1, as observed with mAb MRPr1.
X
ABCC1 p.Glu535Ala 22232552:208:34
status: NEW212 [3 H]LTC4 and azido-[␣32 P]ATP photolabeling of wild-type and E521A and E535A mutant MRP1 proteins.
X
ABCC1 p.Glu535Ala 22232552:212:79
status: NEW221 TABLE 2 ATP dependence of [3 H]E217betaG and [3 H]LTC4 uptake by 4-PBA-rescued MRP1 mutants E521A and E535A Initial rates of [3 H]E217betaG and [3 H]LTC4 uptake by wild-type and 4-PBA-rescued K521A and K535A mutant MRP1 were measured for 1 min in the presence of eight different concentrations of ATP (2.5-2000 M).
X
ABCC1 p.Glu535Ala 22232552:221:102
status: NEW223 The values shown are means of two independent experiments. Transfectant [3 H]E217betaG uptake [3 H]LTC4 uptake Km(ATP) Vmax a Km(ATP) Vmax a M pmol mg-1 min-1 M pmol mg-1 min-1 WT-MRP1 350 48 71 53 E521A 823 20 185 25 E535A 350 22 76 26 a Vmax values have been corrected for differences in protein levels of the 4-PBA- rescued mutants relative to WT-MRP1.
X
ABCC1 p.Glu535Ala 22232552:223:234
status: NEW224 Differential Rescue of Misfolded Cytoplasmic Mutants of MRP1 7550 JOURNAL OF BIOLOGICAL CHEMISTRY VOLUME 287•NUMBER 10•MARCH the 4-PBA-rescued E521A and E535A mutants differs from that of the same region of the wild-type protein.
X
ABCC1 p.Glu535Ala 22232552:224:168
status: NEW225 Trypsin digests of the E521A and E535A mutants and wild-type MRP1 were then probed with mAbs that detect epitopes in the COOH-proximal half of MRP1.
X
ABCC1 p.Glu535Ala 22232552:225:33
status: NEW227 Immunoblots of the 4-PBA-rescued E521A and E535A mutants with the same mAb showed a very similar pattern of disappearance of full-length protein, indicating that accessibility of the cleavage site in the linker region between N1 and C1 of wild-type MRP1 and the 4-PBA-rescued E521A and E535A mutants is the same (Fig. 8B).
X
ABCC1 p.Glu535Ala 22232552:227:43
status: NEWX
ABCC1 p.Glu535Ala 22232552:227:286
status: NEW229 In contrast, levels of C1 fragment (containing MSD2-NBD2) were substantially lower for both the E521A and E535A mutants when probed with mAbs MRPm6 (Fig. 8B), 897.2 (Fig. 8C), or MRPm5 (Fig. 8D), indicating conformational differences in this protein fragment.
X
ABCC1 p.Glu535Ala 22232552:229:106
status: NEW230 These observations provide strong evidence that the E521A and E535A mutations in the NH2-proximal MSD1 cause conformational changes in the COOH-proximal half of MRP1.
X
ABCC1 p.Glu535Ala 22232552:230:62
status: NEW237 Differential Rescue of Misfolded Cytoplasmic Mutants of MRP1 MARCH 2, 2012•VOLUME 287•NUMBER 10 JOURNAL OF BIOLOGICAL CHEMISTRY 7551 the E535A mutant but not for the E521A mutant.
X
ABCC1 p.Glu535Ala 22232552:237:152
status: NEW238 The C2 fragment of the E535A mutant appeared at lower trypsin:protein ratios than did the corresponding fragment of wild-type MRP1 (Fig. 8, B and C, lanes 6-9 for E535A versus lanes 8-9 for wild-type), suggesting an altered conformation of the C1 fragment of E535A.
X
ABCC1 p.Glu535Ala 22232552:238:23
status: NEWX
ABCC1 p.Glu535Ala 22232552:238:163
status: NEWX
ABCC1 p.Glu535Ala 22232552:238:259
status: NEW241 The levels of these CL5 processing mutants K513A, K516A, E521A, and E535A could be increased by incubating cells at subphysiologi- cal temperatures, but these increases were relatively modest (particularly for E521A and E535A) and could be largely attributed to increased amounts of the underglycosylated form(s) of MRP1, which was retained in the ER (19).
X
ABCC1 p.Glu535Ala 22232552:241:68
status: NEWX
ABCC1 p.Glu535Ala 22232552:241:220
status: NEW243 In this study the involvement of proteasome-mediated degradation of the K513A, K516A, E521A, and E535A mutants was confirmed by demonstrating that exposure of HEK cells expressing these mutants to proteasome inhibitors markedly increased the levels of all four mutant proteins.
X
ABCC1 p.Glu535Ala 22232552:243:97
status: NEW251 Detection of COOH-proximal tryptic fragments of E521A and E535A mutant and wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:251:58
status: NEW264 Somewhat surprisingly, the MRP1 processing mutants K513A, K516A, E521A, and E535A varied substantially in their response to the different chemicals despite the relatively close proximity of the affected amino acids in the linear MRP1 sequence.
X
ABCC1 p.Glu535Ala 22232552:264:76
status: NEW268 Rescue of the E521A and E535A mutants was achieved only with 4-PBA, but unlike K516A, these mutants were fully glycosylated.
X
ABCC1 p.Glu535Ala 22232552:268:24
status: NEW280 In contrast to K513A, the LTC4 and E217betaG transport activities of the 4-PBA-rescued E521A and E535A mutants were significantly reduced to a similar degree.
X
ABCC1 p.Glu535Ala 22232552:280:97
status: NEW282 Thus, the decreased transport activity of the E535A mutant could be largely, if not completely, attributed to a reduced affinity for its organic anion substrates.
X
ABCC1 p.Glu535Ala 22232552:282:46
status: NEW284 In seeking an explanation for the mechanistic differences underlying the transport deficiencies of E521A and E535A, we explored the possibility that differences in protein conformation might be involved by using limited proteolysis with a panel of mAbs able to detect tryptic fragments both close and distal to CL5.
X
ABCC1 p.Glu535Ala 22232552:284:109
status: NEW287 Thus, the MSD1-NBD1 region (N1 fragment) of the E521A and E535A mutants was relatively more sensitive to trypsin than wild-type MRP1 (Fig. 7), but given that N1 contains CL5 where the mutations reside, a conformational change in this region is not surprising.
X
ABCC1 p.Glu535Ala 22232552:287:58
status: NEW290 Differences between the two mutants were also observed in the C2 fragment (containing NBD2), with the E521A fragment being more sensitive to trypsin than the same fragment in E535A and wild-type MRP1.
X
ABCC1 p.Glu535Ala 22232552:290:175
status: NEW297 Between these two extremes was the partial and differential rescue of the E521A and E535A mutants.
X
ABCC1 p.Glu535Ala 22232552:297:84
status: NEW[hide] Differential functional rescue of Lys(513) and Lys... Biochim Biophys Acta. 2014 Mar;1838(3):756-65. doi: 10.1016/j.bbamem.2013.11.002. Epub 2013 Nov 11. Iram SH, Cole SP
Differential functional rescue of Lys(513) and Lys(516) processing mutants of MRP1 (ABCC1) by chemical chaperones reveals different domain-domain interactions of the transporter.
Biochim Biophys Acta. 2014 Mar;1838(3):756-65. doi: 10.1016/j.bbamem.2013.11.002. Epub 2013 Nov 11., [PMID:24231430]
Abstract [show]
Multidrug resistance protein 1 (MRP1) extrudes drugs as well as pharmacologically and physiologically important organic anions across the plasma membrane in an ATP-dependent manner. We previously showed that Ala substitutions of Lys(513) and Lys(516) in the cytoplasmic loop (CL5) connecting transmembrane helix 9 (TM9) to TM10 cause misfolding of MRP1, abrogating its expression at the plasma membrane in transfected human embryonic kidney (HEK) cells. Exposure of HEK cells to the chemical chaperones glycerol, DMSO, polyethylene glycol (PEG) and 4-aminobutyric acid (4-PBA) improved levels of K513A to wild-type MRP1 levels but transport activity was only fully restored by 4-PBA or DMSO treatments. Tryptic fragmentation patterns and conformation-dependent antibody immunoreactivity of the transport-deficient PEG- and glycerol-rescued K513A proteins indicated that the second nucleotide binding domain (NBD2) had adopted a more open conformation than in wild-type MRP1. This structural change was accompanied by differences in ATP binding and hydrolysis but no changes in substrate Km. In contrast to K513A, K516A levels in HEK cells were not significantly enhanced by chemical chaperones. In more permissive insect cells, however, K516A levels were comparable to wild-type MRP1. Nevertheless, organic anion transport by K516A in insect cell membranes was reduced by >80% due to reduced substrate Km. Tryptic fragmentation patterns indicated a more open conformation of the third membrane spanning domain of MRP1. Thus, despite their close proximity to one another in CL5, Lys(513) and Lys(516) participate in different interdomain interactions crucial for the proper folding and assembly of MRP1.
Comments [show]
None has been submitted yet.
No. Sentence Comment
27 In the case of three of these misfolded CL5 mutants (K513A, E521A and E535A), plasma membrane MRP1 levels could be improved significantly by exposing transfected HEK cells to the widely used chemical chaperone, 4-phenylbutyric acid (4-PBA) [9,10].
X
ABCC1 p.Glu535Ala 24231430:27:70
status: NEW28 Although the 4-PBA- rescued E521A and E535A mutants were stably expressed, they exhibited mechanistically distinct transport deficiencies that were associated with different structural conformations of the transporter that in turn indicated that the folding and assembly processes for MRP1 are distinct from those of its homolog CFTR [9].
X
ABCC1 p.Glu535Ala 24231430:28:38
status: NEW29 In contrast to E521A and E535A, the 4-PBA rescued K513A mutant exhibited transport properties comparable to wild-type MRP1.
X
ABCC1 p.Glu535Ala 24231430:29:25
status: NEW