Skip to Content
Merck
  • The sigma-1 receptor binds to the Nav1.5 voltage-gated Na+ channel with 4-fold symmetry.

The sigma-1 receptor binds to the Nav1.5 voltage-gated Na+ channel with 4-fold symmetry.

The Journal of biological chemistry (2012-09-07)
Dilshan Balasuriya, Andrew P Stewart, David Crottès, Franck Borgese, Olivier Soriani, J Michael Edwardson
ABSTRACT

The sigma-1 receptor (Sig1R) is up-regulated in many human tumors and plays a role in the control of cancer cell proliferation and invasiveness. At the molecular level, the Sig1R modulates the activity of various ion channels, apparently through a direct interaction. We have previously shown using atomic force microscopy imaging that the Sig1R binds to the trimeric acid-sensing ion channel 1A with 3-fold symmetry. Here, we investigated the interaction between the Sig1R and the Nav1.5 voltage-gated Na(+) channel, which has also been implicated in promoting the invasiveness of cancer cells. We show that the Sig1R and Nav1.5 can be co-isolated from co-transfected cells, consistent with an intimate association between the two proteins. Atomic force microscopy imaging of the co-isolated proteins revealed complexes in which Nav1.5 was decorated by Sig1Rs. Frequency distributions of angles between pairs of bound Sig1Rs had two peaks, at ∼90° and ∼180°, and the 90° peak was about twice the size of the 180° peak. These results demonstrate that the Sig1R binds to Nav1.5 with 4-fold symmetry. Hence, each set of six transmembrane regions in Nav1.5 likely constitutes a Sig1R binding site, suggesting that the Sig1R interacts with the transmembrane regions of its partners. Interestingly, two known Sig1R ligands, haloperidol and (+)-pentazocine, disrupted the Nav1.5/Sig1R interaction both in vitro and in living cells. Finally, we show that endogenously expressed Sig1R and Nav1.5 also functionally interact.

MATERIALS
Product Number
Brand
Product Description

Supelco
Pentazocine solution, 1.0 mg/mL in methanol, ampule of 1 mL, certified reference material, Cerilliant®