Mordvintsev Dmitry Yu, Polyak Yakov L, Rodionov Dmitry I, Jakubik Jan, Dolezal Vladimir, Karlsson Evert, Tsetlin Victor I, Utkin Yuri N
Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry RAS, Moscow, Russia.
FEBS J. 2009 Sep;276(18):5065-75. doi: 10.1111/j.1742-4658.2009.07203.x. Epub 2009 Aug 4.
Iodinated [125I] weak toxin from Naja kaouthia (WTX) cobra venom was injected into mice, and organ-specific binding was monitored. Relatively high levels of [125I]WTX were detected in the adrenal glands. Rat adrenal membranes were therefore used for analysis of [125I]WTX-binding sites. Specific [125I]WTX binding was partially inhibited by both alpha-cobratoxin, a blocker of the alpha7 and muscle-type nicotinic acetylcholine receptors (nAChRs), and by atropine, an antagonist of the muscarinic acetylcholine receptor (mAChR). Binding to rat adrenal nAChR had a Kd of 2.0+/-0.8 microM and was inhibited by alpha-cobratoxin but not by a short-chain alpha-neurotoxin antagonist of the muscle-type nAChR, suggesting a specific interaction with the alpha7-type nAChR. WTX binding was reduced not only by atropine but also by other muscarinic agents (oxotremorine and muscarinic toxins from Dendroaspis angusticeps), indicating an interaction with mAChR. This interaction was further characterized using individual subtypes of human mAChRs expressed in Chinese hamster ovary cells. WTX concentrations up to 30 microM did not inhibit binding of [3H]acetylcholine to any subtype of mAChR by more than 50%. Depending on receptor subtype, WTX either increased or had no effect on the binding of the muscarinic antagonist [3H]N-methylscopolamine, which binds to the orthosteric site, a finding indicative of an allosteric interaction. Furthermore, WTX alone activated G-protein coupling with all mAChR subtypes and reduced the efficacy of acetylcholine in activating G-proteins with the M1, M4, and M5 subtypes. Our data demonstrate an orthosteric WTX interaction with nAChR and an allosteric interaction with mAChRs.
将碘化的[125I]眼镜王蛇(WTX)弱毒素注射到小鼠体内,并监测其器官特异性结合情况。在肾上腺中检测到相对较高水平的[125I]WTX。因此,使用大鼠肾上腺膜来分析[125I]WTX结合位点。α-银环蛇毒素(一种α7和肌肉型烟碱型乙酰胆碱受体(nAChRs)的阻断剂)和阿托品(一种毒蕈碱型乙酰胆碱受体(mAChR)的拮抗剂)均可部分抑制特异性[125I]WTX结合。与大鼠肾上腺nAChR的结合Kd为2.0±0.8微摩尔,且被α-银环蛇毒素抑制,但不被肌肉型nAChR的短链α-神经毒素拮抗剂抑制,这表明与α7型nAChR存在特异性相互作用。WTX结合不仅被阿托品降低,还被其他毒蕈碱剂(奥索震颤素和来自绿曼巴蛇的毒蕈碱毒素)降低,表明与mAChR存在相互作用。使用在中国仓鼠卵巢细胞中表达的人mAChR的各个亚型进一步表征了这种相互作用。高达30微摩尔的WTX浓度对[3H]乙酰胆碱与任何mAChR亚型的结合抑制作用均不超过50%。根据受体亚型的不同,WTX要么增加要么不影响与毒蕈碱拮抗剂[3H]N-甲基东莨菪碱的结合,[3H]N-甲基东莨菪碱与正构位点结合,这一发现表明存在变构相互作用。此外,单独的WTX可激活与所有mAChR亚型的G蛋白偶联,并降低乙酰胆碱激活M1、M4和M5亚型G蛋白的效力。我们的数据证明了WTX与nAChR的正构相互作用以及与mAChR的变构相互作用。
