Journal of Pharmacological Sciences (Jan 2019)

SKF-10047, a prototype Sigma-1 receptor agonist, augmented the membrane trafficking and uptake activity of the serotonin transporter and its C-terminus-deleted mutant via a Sigma-1 receptor-independent mechanism

  • Masaya Asano,
  • Serika Motoike,
  • Chika Yokota,
  • Naoto Usuki,
  • Hikaru Yamamoto,
  • Tomoaki Urabe,
  • Kazusa Katarao,
  • Izumi Hide,
  • Shigeru Tanaka,
  • Masashi Kawamoto,
  • Masahiro Irifune,
  • Norio Sakai

Journal volume & issue
Vol. 139, no. 1
pp. 29 – 36

Abstract

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The serotonin transporter (SERT) is functionally regulated via membrane trafficking. Our previous studies have demonstrated that the SERT C-terminal deletion mutant (SERTΔCT) showed a robust decrease in its membrane trafficking and was retained in the endoplasmic reticulum (ER), suggesting that SERTΔCT is an unfolded protein that may cause ER stress. The Sigma-1 receptor (SigR1) has been reported to attenuate ER stress via its chaperone activity. In this study, we investigated the effects of SKF-10047, a prototype SigR1 agonist, on the membrane trafficking and uptake activity of SERT and SERTΔCT expressed in COS-7 cells. Twenty-four hours of SKF-10047 treatment (>200 μM) accelerated SERT membrane trafficking and robustly upregulated SERTΔCT activity. Interestingly, these effects of SKF-10047 on SERT functions were also found in cells in which SigR1 expression was knocked down by shRNA, suggesting that SKF-10047 exerted these effects on SERT via a mechanism independent of SigR1. A cDNA array study identified several candidate genes involved in the mechanism of action of SKF-10047. Among them, Syntaxin3, a member of the SNARE complex, was significantly upregulated by 48 h of SKF-10047 treatment. These results suggest that SKF-10047 is a candidate for ER stress relief. Keywords: Serotonin transporter, Sigma-1 receptor, Membrane trafficking, SKF-10047