Institute of Physiology, Academy of Sciences of the Czech Republic v.v.i., Vídeňská 1083, 14220, Prague 4, Czech Republic.
Naunyn Schmiedebergs Arch Pharmacol. 2014 May;387(5):487-502. doi: 10.1007/s00210-014-0962-8. Epub 2014 Mar 1.
The effect of sodium, potassium, and lithium on δ-opioid receptor ligand binding parameters and coupling with the cognate G proteins was compared in model HEK293 cell line stably expressing PTX-insensitive δ-OR-Gi1α (Cys(351)-Ile(351)) fusion protein. Agonist [(3)H]DADLE binding was decreased in the order Na(+) ≫ Li(+) > K(+) > (+)NMDG. When plotted as a function of increasing NaCl concentrations, the binding was best-fitted with a two-phase exponential decay considering two Na(+)-responsive sites (r (2) = 0.99). High-affinity Na(+)-sites were characterized by Kd = 7.9 mM and represented 25 % of the basal level determined in the absence of ions. The remaining 75 % represented the low-affinity sites (Kd = 463 mM). Inhibition of [(3)H]DADLE binding by lithium, potassium, and (+)-NMDG proceeded in low-affinity manner only. Surprisingly, the affinity/potency of DADLE-stimulated [(35)S]GTPγS binding was increased in a reverse order: Na(+) < K(+) < Li(+). This result was demonstrated in PTX-treated as well as PTX-untreated cells. Therefore, it is not restricted to Gi1α(Cys(351)-Ile(351)) within the δ-OR-Gi1α fusion protein, but is also valid for stimulation of endogenous G proteins of Gi/Go family in HEK293 cells. Biophysical studies of interaction of ions with polar head-group region of lipids using Laurdan generalized polarization indicated the low-affinity type of interaction only proceeding in the order: Cs(+) < K(+) < Na(+) < Li(+). The results are discussed in terms of interaction of Na(+), K(+) and Li(+) with the high- and low-affinity sites located in water-accessible part of δ-OR binding pocket. We also consider the role of negatively charged Cl(-), Br(-), and I(-) counter anions in inhibition of both [(3)H]DADLE and [(35)S]GTPγS binding.
在稳定表达对蛋白毒素不敏感的 δ-阿片受体-Gi1α(Cys(351)-Ile(351)) 融合蛋白的模型 HEK293 细胞系中,比较了钠、钾和锂对 δ-阿片受体配体结合参数的影响,并与相应的 G 蛋白偶联。激动剂 [(3)H]DADLE 结合按以下顺序减少:Na(+) ≫ Li(+) > K(+) > (+)NMDG。当以增加 NaCl 浓度为函数作图时,考虑到两个 Na(+)-反应性位点,拟合度最好的是双相指数衰减 (r (2) = 0.99)。高亲和力 Na(+)位点的特点是 Kd = 7.9 mM,占无离子存在时基础水平的 25%。剩下的 75% 代表低亲和力位点 (Kd = 463 mM)。锂、钾和 (+)-NMDG 对 [(3)H]DADLE 结合的抑制仅以低亲和力方式进行。令人惊讶的是,DADLE 刺激的 [(35)S]GTPγS 结合的亲和力/效力按相反的顺序增加:Na(+) < K(+) < Li(+)。该结果在 PTX 处理和未处理的细胞中均得到证实。因此,它不仅限于 δ-OR-Gi1α 融合蛋白中的 Gi1α(Cys(351)-Ile(351)),而且对于 Gi/Go 家族内源性 G 蛋白在 HEK293 细胞中的刺激也是有效的。使用 Laurdan 广义极化研究离子与脂质极性头基团区域相互作用的生物物理研究表明,仅以 Cs(+) < K(+) < Na(+) < Li(+) 的顺序进行低亲和力类型的相互作用。结果从位于 δ-OR 结合口袋可及部分的高亲和力和低亲和力位点的角度讨论了 Na(+)、K(+) 和 Li(+) 的相互作用。我们还考虑了带负电荷的 Cl(-)、Br(-) 和 I(-) 反离子在抑制 [(3)H]DADLE 和 [(35)S]GTPγS 结合中的作用。
