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Biophysical Journal, Volume 111
Supplemental Information
Investigation of LRRC8-Mediated Volume-Regulated Anion Currents in
Xenopus Oocytes
Héctor Gaitán-Peñas, Antonella Gradogna, Lara Laparra-Cuervo, Carles Solsona, VictorFernández-Dueñas, Alejandro Barrallo-Gimeno, Francisco Ciruela, MelikeLakadamyali, Michael Pusch, and Raúl Estévez
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Supplementary Material
Investigation of LRRC8-mediated volume-regulated anion currents in Xenopus oocytes
reveals novel properties
H. Gaitán-Peñas, A. Gradogna, L. Laparra-Cuervo, C. Solsona, V. Fernández-Dueñas, A.
Barrallo-Gimeno, F. Ciruela, M. Lakadamyali, M. Pusch, R. Estévez
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Supplementary Figure 1. Custom device for luminescence measurements.
ATP induced luminescence from luciferin-luciferase mixture was measured using a
home-made device in which a chamber containing an assay tube can be exposed to a
photomultiplier (PM). The set up was inspired by a device described by Israel and
Lesbats (1). The PM is fed with a high voltage power supply delivering (HT) and
generates a signal which increases upon light emission. The chamber (A), made in black
anodized aluminium and connected to the PM, consists of three parts: A lid, a cubic block
and a cylinder. The lid isolates the inner part of the chamber from any external source of
light. The cubic block, in black, has a window that feeds light to the PM. The cubic block
has a cylindrical cavity with a tightly fitted but rotatable cylinder (1, in grey), made as well
with black anodized aluminium. The cylinder is coupled to the lid in a manner in which it
can be turned on right or left by rotating the lid. A’ represents an air view of the top of
chamber; the white dashed line represents the perimeter of the lid. The cylinder bears a
cavity with the size of a hemolysis tube. The lateral part of this cavity contains a window
at the same height as the window in the cubic block, allowing optical contact between the
hemolysis tube and the PM. For ATP release experiments, Luciferin-luciferase mixture
was first added to the tube without oocytes, and the background light signal due to
spontaneous emission was recorded in position B, B’. After this, oocytes were added in
position A, A’, the tube was rotated back to position B, B’, and light emission was
continuously monitored. Drugs or other solutions were added in an analogous manner.
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Supplementary Figure 2. Current recovery of hypotonically activated 8A/8E and 8A-VFP/8E-mCherry channels.
Effect of osmolarity changes on 8A/8E (A) and 8A-VFP/8E-mCherry (B). Currents are
plotted as function of the time. Colors correspond to the different solutions applied during
indicate s.e.m. (n>=6 oocytes for each group; qualitatively similar results were obtained
in another batch).
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Supplementary Figure 6. Western blot analysis of the expression of fluorescently
tagged LRRC8 proteins.
Extracts from un-injected oocytes or oocytes injected with 8A-VFP alone, 8E-mCherry
alone or 8A-VFP plus 8B/C/D/E-mCherry were obtained. Western blots against
antibodies for GFP or Cherry were performed, using -tubulin as a loading control. Two
independent WB experiments gave similar results. The expected size of the fluorescently
tagged proteins is between 119 and 127 kDa. However, the banding pattern suggests
altered post-translational modifications such as glycosylation, phosphorylation or partially
translated products. It has been recently shown (2) that PNGaseF treatment of LRRC8A,
but not of LRRC8A-N66A/N83A with disrupted glycosylation sites, decreased LRRC8A
size in Western blots, indicating that LRRC8A is glycosylated at N66 and N83.
Furthermore, as LRRC8A-N66A/N83A also had a banding pattern, LRRC8A may also
contain other post-translational modifications such as phosphorylation. According to
Uniprot, all LRRC8 proteins contain putative sites of phosphorylation and glycosylation.
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Supplementary Figure 7. Typical data used for the determination of ion selectivity.
Panels A and B show data for 8A-VFP/8E-mCherry. In panel A typical “tail current” traces
are shown in the Cl- solution, in Glutamate, and after wash with the Cl- solution. In panel
B typical I-V curves are shown for the indicated ions (data are from different oocytes
because not all ions could be tested in a single oocyte). Solid lines are fits of a parabola
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to the 4 points closest to the reversal potential, which was used to extract the
experimental reversal potential. Panel C shows similar data for 8A-VFP/8D-mCherry.
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Supplementary Figure 8. Functional and cell-biological investigation of the
variability of LRRC8 stoichiometry. (A) TIRF image showing LRRC8E-VFP and
LRRC8D-mCherry oligomers on the Xenopus oocyte membrane in the presence of
untagged LRRC8A and a merge of the two fluorescent channels. Arrowheads point to
overlapping LRRC8E and LRRC8D spots. (B) Example VFP photobleaching traces of
8A-VFP/8E-mCherry expressing oocytes with 1, 2, 4, 5, 6 or >6 bleaching steps. (C)
Normalized currents at 60 mV from oocytes injected with 8A-VFP/8E-mCherry (left) or
8A-mCherry/8E-VFP (right) using either the same amount of each (2.5 ng 8A, 2.5 ng 8E)
or an increased amount of the 8A RNA (3.75 ng 8A, 1.25 ng 8E). Data are the mean from
three independent experiments and indicate the mean ± s.e.m. * p < 0.05, ** p < 0.01, ***
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p < 0.001. (D) Distribution of the percentage of counted photobleaching steps (n=53)
from LRRC8A-VFP oligomers in complex with LRRC8E-mCherry oligomers at the 3:1
RNA ratio.
Supplementary references
1. Israel, M., and B. Lesbats. 1981. Chemiluminescent determination of acetylcholine, and continuous detection of its release from torpedo electric organ synapses and synaptosomes. Neurochem. Int. 3:81-90.
2. Voss, F. K., F. Ullrich, J. Munch, K. Lazarow, D. Lutter, N. Mah, M. A. Andrade-Navarro, J. P. von Kries, T. Stauber, and T. J. Jentsch. 2014. Identification of LRRC8 heteromers as an essential component of the volume-regulated anion channel VRAC. Science 344:634-638.