ABCB1 p.Ser992Cys
| Predicted by SNAP2: | A: D (53%), C: D (63%), D: D (75%), E: D (75%), F: N (53%), G: N (57%), H: D (71%), I: D (63%), K: D (80%), L: D (53%), M: D (53%), N: D (53%), P: D (85%), Q: D (75%), R: D (80%), T: N (61%), V: D (59%), W: D (80%), Y: D (71%), |
| Predicted by PROVEAN: | A: N, C: D, D: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: N, P: D, Q: D, R: D, T: N, V: D, W: D, Y: D, |
[switch to compact view]
Comments [show]
None has been submitted yet.
[hide] Transmembrane helix 12 modulates progression of th... Biochemistry. 2009 Jul 7;48(26):6249-58. Crowley E, O'Mara ML, Reynolds C, Tieleman DP, Storm J, Kerr ID, Callaghan R
Transmembrane helix 12 modulates progression of the ATP catalytic cycle in ABCB1.
Biochemistry. 2009 Jul 7;48(26):6249-58., 2009-07-07 [PMID:19456124]
Abstract [show]
Multidrug efflux pumps, such as P-glycoprotein (ABCB1), present major barriers to the success of chemotherapy in a number of clinical settings. Molecular details of the multidrug efflux process by ABCB1 remain elusive, in particular, the interdomain communication associated with bioenergetic coupling. The present investigation has focused on the role of transmembrane helix 12 (TM12) in the multidrug efflux process of ABCB1. Cysteine residues were introduced at various positions within TM12, and their effect on ATPase activity, nucleotide binding, and drug interaction were assessed. Mutation of several residues within TM12 perturbed the maximal ATPase activity of ABCB1, and the underlying cause was a reduction in basal (i.e., drug-free) hydrolysis of the nucleotide. Two of the mutations (L976C and F978C) were found to reduce the binding of [gamma-(32)P]-azido-ATP to ABCB1. In contrast, the A980C mutation within TM12 enhanced the rate of ATP hydrolysis; once again, this was due to modified basal activity. Several residues also caused reductions in the potency of stimulation of ATP hydrolysis by nicardipine and vinblastine, although the effects were independent of changes in drug binding per se. Overall, the results indicate that TM12 plays a key role in the progression of the ATP hydrolytic cycle in ABCB1, even in the absence of the transported substrate.
Comments [show]
None has been submitted yet.
No. Sentence Comment
155 Table 2: Potency and Degree of Drug Stimulation of ATP Hydrolysis by ABCB1a nicardipine vinblastine EC50 (μM) fold stimulation EC50 (μM) fold stimulation Cys-less 4.1 ( 1.1 4.0 ( 0.6 5.91 ( 2.9 2.2 ( 0.2 L976C 5.2 ( 0.2 7.4 ( 1.4 10.0 ( 0.0 3.5 ( 0.6 F978C 24.1 ( 2.3b 9.5 ( 1.4 42.9 ( 4.3b 2.3 ( 0.5 A980C 3.4 ( 0.3 5.1 ( 0.9 12.3 ( 1.8 3.2 ( 0.8 V982C 5.8 ( 0.9 4.2 ( 0.5 2.0 ( 0.7 1.8 ( 0.2 G984C 37.6 ( 11.2b 16.2 ( 6.6b 6.7 ( 1.7 6.2 ( 2.3 M986C 9.2 ( 0.8 4.7 ( 1.1 15.0 ( 2.0b 2.8 ( 0.7 V988C 3.9 ( 0.6 3.1 ( 0.1 7.3 ( 2.3 1.9 ( 0.2 G989C 13.6 ( 1.5 5.1 ( 1.6 4.9 ( 0.9 2.4 ( 0.3 Q990C 6.9 ( 1.1 3.7 ( 1.0 NDc NDc S992C 4.9 ( 0.5 4.2 ( 0.6 7.1 ( 2.6 2.3 ( 0.4 F994C 1.7 ( 0.4 3.2 ( 0.8 5.9 ( 2.5 1.6 ( 0.3 a ATPase activity was plotted as a function of the drug concentration and potency (EC50) and degree of stimulation obtained by nonlinear regression of the dose-response relationship equation.
X
ABCB1 p.Ser992Cys 19456124:155:632
status: NEW[hide] Transmembrane helix 12 plays a pivotal role in cou... FEBS J. 2010 Oct;277(19):3974-85. doi: 10.1111/j.1742-4658.2010.07789.x. Epub 2010 Aug 20. Crowley E, O'Mara ML, Kerr ID, Callaghan R
Transmembrane helix 12 plays a pivotal role in coupling energy provision and drug binding in ABCB1.
FEBS J. 2010 Oct;277(19):3974-85. doi: 10.1111/j.1742-4658.2010.07789.x. Epub 2010 Aug 20., [PMID:20731718]
Abstract [show]
Describing the molecular details of the multidrug efflux process of ABCB1, in particular the interdomain communication associated with bioenergetic coupling, continues to prove difficult. A number of investigations to date have implicated transmembrane helix 12 (TM12) in mediating communication between the transmembrane domains and nucleotide-binding domains (NBDs) of ABCB1. The present investigation further addressed the role of TM12 in ABCB1 by characterizing its topography during the multidrug efflux process with the use of cysteine-directed mutagenesis. Cysteines were introduced at various positions along TM12 and assessed for their ability to covalently bind thiol-reactive fluorescent probes with differing physiochemical properties. By analysing each isoform in the basal, ATP-bound and posthydrolytic states, it was possible to determine how the local environment of TM12 alters during the catalytic cycle. Labelling with hydrophobic CM and zwitterionic BM was extensive throughout the helix in the basal, prehydrolytic and posthydrolytic states, suggesting that TM12 is in a predominantly hydrophobic environment. Overall, the carboxy region (intracellular half) of TM12 appeared to be more responsive to changes in the catalytic state of the protein than the amino region (extracellular half). Thus, the carboxy region of TM12 is suggested to be responsive to nucleotide binding and hydrolysis at the NBDs and therefore directly involved in interdomain communication. This data can be reconciled with an atomic-scale model of human ABCB1. Taken together, these results indicate that TM12 plays a key role in the progression of the ATP hydrolytic cycle in ABCB1 and, in particular, in coordinating conformational changes between the NBDs and transmembrane domains.
Comments [show]
None has been submitted yet.
No. Sentence Comment
90 The proximally located S992C was also able to interact with FM, although to only a partial degree.
X
ABCB1 p.Ser992Cys 20731718:90:23
status: NEW139 Mutant CM BM FM Lext (%) t1 / 2 (min) Lext (%) t1 / 2 (min) Lext (%) t1 / 2 (min) L976C 38 ± 5 29 ± 12 66 ± 14 29 ± 18 - - A980C 53 ± 6 34 ± 1 54 ± 8 20 ± 9 - - V982C 98 ± 14 15 ± 6 164 ± 50 27 ± 17 - - G984C 73 ± 14 29 ± 6 84 ± 24 22 ± 7 13 ± 10 ND M986C 89 ± 30 25 ± 10 51 ± 5 3 ± 2 21 ± 2 ND V988C 53 ± 6 37 ± 18 221 ± 63 18 ± 12 - - G989C 64 ± 7 15 ± 6 21 ± 3 9 ± 2 - - S992C 55 ± 4 22 ± 6 51 ± 5 4 ± 1 32 ± 3 25 ± 5 F994C 51 ± 10 11 ± 9 111 ± 35 13 ± 10 129 ± 24 8 ± 3 Conformational changes - central region Two of the residues examined in the central region (G984C and M986C) of TM12 have been shown to accommodate partial labelling with FM, suggestive of aqueous accessibility in the basal state. At M986C, the extent of labelling with the hydrophilic probe was increased following the addition of nonhydrolysable nucleotide.
X
ABCB1 p.Ser992Cys 20731718:139:524
status: NEW153 In the basal state, none of the probes could effect complete labelling of the S992C isoform.
X
ABCB1 p.Ser992Cys 20731718:153:78
status: NEW164 ABCB1 isoform Catalytic intermediate CM BM FM L976C Basal ++ +++ ) AMP-PNP +++ ++ ) Vi trapped +++ +++ ) A980C Basal ++ ++ ) AMP-PNP +++ + ) Vi trapped +++ +++ ) V982C Basal +++ +++ ) AMP-PNP +++ +++ ) Vi trapped +++ +++ ) G984C Basal +++ +++ + AMP-PNP +++ +++ + Vi trapped +++ ++ ) M986C Basal +++ ++ + AMP-PNP ++ +++ ++ Vi trapped +++ ++ ) V988C Basal ++ +++ ) AMP-PNP +++ +++ ) Vi trapped +++ +++ ) G989C Basal ++ + ) AMP-PNP ++ ++ ) Vi trapped ++ + ) S992C Basal ++ ++ + AMP-PNP +++ +++ ++ Vi trapped ++ ++ + F994C Basal ++ +++ +++ AMP-PNP ++ +++ ++ Vi trapped +++ +++ + reflect localization at the membrane-solute interface.
X
ABCB1 p.Ser992Cys 20731718:164:455
status: NEW191 M986C and S992C (Fig. 3) on TM12 straddle the boundaries of this hydrophilic band, and also face directly into the presumed translocation pore.
X
ABCB1 p.Ser992Cys 20731718:191:10
status: NEW199 S992C and F994C are believed to be located at the boundary of the membrane.
X
ABCB1 p.Ser992Cys 20731718:199:0
status: NEW