| Literature DB >> 22303005 |
Vsevolod Telezhkin1, Joanne M Reilly, Alison M Thomas, Andrew Tinker, David A Brown.
Abstract
M-channels are voltage-gated potassium channels that regulate cell excitability. They are heterotetrameric assemblies ofEntities:
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Year: 2012 PMID: 22303005 PMCID: PMC3322975 DOI: 10.1074/jbc.M111.322552
Source DB: PubMed Journal: J Biol Chem ISSN: 0021-9258 Impact factor: 5.157
FIGURE 1.Structures and phosphorylation of phosphatidylinositols. Shown are sequential reactions for the endogenous phosphorylation of PI(4)P to PI(4,5)P2 and PI(3,4,5)P3 by PI5K and PI3K.
FIGURE 2.M-type channel activity stimulated by diC A–C, exemplar traces of M-channel recordings showing effects of sequentially increasing concentrations of diC8PI(4)P, diC8PI(4,5)P2, and diC8PI(3,4,5)P3 applied to the inner leaflet of excised inside-out patches from CHO cells stably expressing the M-channel subunits Kv7.2 and Kv7.3 (holding potential of 0 mV). C, closed state; O1–O5, open state currents for one to five channels. D, mean ± S.E. for P of M-channels plotted against 0.1–300 μm phosphatidylinositols. ●, diC8PI(4)P (n = 6–24); ○, diC8PI(4,5)P2 (n = 10–27); ■, diC8PI(3,4,5)P3 (n = 7–18). The data points were fitted to a two-component Hill equation (see “Experimental Procedures”) with the parameters listed in Table 1.
Activation of Kv7.2/7.3 M-channels by phosphoinositides
Data are from least-squares curve fits (see “Experimental Procedures” and Fig. 2).
| PI(4)P | PI(4,5)P2 | PI(3,4,5)P3 | |
|---|---|---|---|
| EC50(1) (μ | 1.7 ± 0.3 | 1.1 ± 0.1 | 1.1 ± 0.2 |
| | 0.10 ± 0.007 | 0.19 ± 0.007 | 0.19 ± 0.017 |
| EC50(2) (μ | 98.6 ± 4.5 | 49.6 ± 1.9 | 35.4 ± 2.4 |
| | 0.57 ± 0.022 | 0.61 ± 0.012 | 0.64 ± 0.025 |
| | 0.61 ± 0.10 | 0.79 ± 0.05 | 0.80 ± 0.04 |
| | 1.9 ± 0.2 | 2.0 ± 0.1 | 1.5 ± 0.1 |
| | 6–24 | 10–27 | 7–18 |
The value significantly differs from the P(max1) of PI(4,5)P2 (p < 0.03).
Number of patches at each concentration.
FIGURE 3.I(1,4,5)P A, exemplar trace of sequential increases in I(1,4,5)P3 concentrations showing no stimulation of M-channel activity applied to the inner leaflet of excised inside-out patches from CHO cells stably expressing M-type Kv7.2/7.3 channels (holding potential of 0 mV). C, closed state; O, open state current. B, superimposition of 100 μm PI(4,5)P2 does not reduce channel activity stimulated by 100 μm diC8PI(4,5)P2 (holding potential of 0 mV).
FIGURE 4.Structures of some lipid phosphates tested.
FIGURE 5.M-channel activity stimulated by S-1-P and fingolimod phosphate. A–C, exemplar traces of M-channel recordings showing the effects of sequential increases in S-1-P (A and B) and fingolimod phosphate (FTY720-P; C) concentrations applied to the inner leaflet of excised inside-out patches from CHO cells stably expressing M-type Kv7.2/7.3 channels (holding potential of 0 mV). C, closed state; O1–O5, open state currents for one to five channels. D, mean ± S.E. for M-channel P plotted against lipid phosphate concentration. – – –, diC8PI(4,5)P2; ▴, S-1-P; ▾, fingolimod phosphate (including inset); △ and ▿, 100 μm diC8PI(4,5)P2 (reference points for S-1-P and fingolimod phosphate, respectively). The data points were fitted to a two-component Hill equation (see “Experimental Procedures”) with the parameters listed in Table 2.
Activation of Kv7.2/7.3 M-channels by non-inositol lipid monophosphates
Data are from least-squares curve fits (see Figs. 5 and 6). FTY720-P, fingolimod phosphate.
| S-1-P | FTY720-P | LPA | |
|---|---|---|---|
| EC50(1) (μ | 3.2 ± 0.6 | 0.5 ± 0.001 | 1.5 ± 0.4 |
| | 0.072 ± 0.006 | 0.007 ± 0.000001 | 0.204 ± 0.027 |
| EC50(2) (μ | 157.3 ± 40.8 | 63.2 ± 0.2 | 40.0 ± 9.2 |
| | 0.26 ± 0.043 | 0.021 ± 0.00006 | 0.626 ± 0.075 |
| | 0.26 ± 0.05 | 0.02 ± 0.006 | 0.68 ± 0.09 |
| | 1.5 ± 0.2 | 1.8 ± 0.0042 | 1.3 ± 0.2 |
| | 6–15 | 8–11 | 4–12 |
Values significantly differ from the P(max1) of PI(4,5)P2 (p < 0.02).
Values significantly differ from the P(max2) and combined P(max) of PI(4,5)P2 (p < 0.000006 and p < 0.0000000001 for S-1-P and fingolimod phosphate, respectively).
Number of patches at each concentration.
FIGURE 6.M-type channel activity stimulated by LPA. A and B, exemplar traces of M-channel recordings showing effects of sequential increases in LPA concentrations applied to the inner leaflet of excised inside-out patches from CHO cells stably expressing M-type Kv7.2/7.3 channels (holding potential of 0 mV). C, closed state; O1–O5, open state currents for one to five channels. C, mean ± S.E. for P of M-channels plotted against LPA concentration. – – –, diC8PI(4,5)P2 (from Fig. 2); ♦, LPA; ♢, 100 μm diC8PI(4,5)P2 (reference point for LPA). The data points were fitted to a two-component Hill equation (see “Experimental Procedures”) with the parameters listed in Table 2.
FIGURE 7.A–C, applications of 100 μm d-erythro-sphingosine (S) (A), fingolimod (FTY720) (B), and biotinylated PG and PC (C) to three separate patches did not activate M-channels. In each patch, channels were activated by 10 μm diC8PI(4,5)P2 (holding potential of 0 mV). C, closed state; O, open state current.
FIGURE 8.Purification and lipid binding of MBP-Kv7.2C. A, 10% SDS-PAGE of typical MBP-Kv7.2C protein purification. The soluble fraction (S) and 2 μg of the eluted (E) protein were loaded as indicated. The protein size was estimated using Bio-Rad prestained markers (M) of known molecular mass (shown in kilodaltons). The band representing the expected size of the protein is boxed. B, PIP Strips were incubated overnight with 5 μg/ml MBP-Kv7.2C or MBP-Kv7.2C-EEE (11) protein. Recognition of binding was obtained by incubation with rabbit anti-MBP antibody (1:1000 dilution), followed by anti-rabbit antibody as contained in the ECL kit (GE Healthcare). C, densitometric measurements (A.U, arbitrary units) of the binding of MBP-Kv7.2C (WT; dark gray bars) and MBP-Kv7.2C-EEE (EEE; light gray bars) to phospholipids. Error bars are S.E. for the number of strips shown in parentheses. * and **, MBP-Kv7.2C-EEE binding was significantly less than that of MBP-Kv7.2C at p < 0.05 and p < 0.01, respectively (two-tailed t test for unequal numbers). LPC, lysophosphatidylcholine; PE, phosphatidylethanolamine; PA, phosphatidic acid; PS, phosphatidylserine.