White B H, Howard S, Cohen S G, Cohen J B
Department of Anatomy and Neurobiology, Washington University School of Medicine, St. Louis, Missouri 63110.
J Biol Chem. 1991 Nov 15;266(32):21595-607.
We have shown previously that the lipophilic photoreagent 3-(trifluoromethyl)3-m-([125I]iodophenyl)-diazirine ([125I]TID) photolabels all four subunits of the Torpedo nicotinic acetylcholine receptor (AChR) and that greater than 70% of this photoincorporation is inhibited by cholinergic agonists and some noncompetitive antagonists, including histrionicotoxin (HTX), but not phencyclidine (PCP; White, B.H., and Cohen, J.B. (1988) Biochemistry 27, 8741-8751). We have now examined the effects of nonradioactive TID on (a) AChR photoincorporation of [125I]TID, (b) AChR-mediated ion transport, and (c) AChR binding of several cholinergic ligands. We find that TID inhibits [125I]TID photoincorporation into the AChR to the same extent as carbamylcholine. The saturable component of [125I]TID photolabeling is half-maximal at 4 microM [125I]TID with 0.5 mol specifically incorporated per mol of AChR after 30 min photolysis with 60 microM [125I]TID. Repeated labeling of membranes at a fixed [125I]TID concentration gave results consistent with a maximal incorporation of one [125I]TID molecule per AChR. Nonradioactive TID also noncompetitively inhibits agonist-stimulated 22Na+ efflux from Torpedo vesicles with an IC50 of 1 microM. Furthermore, TID inhibits allosterically the binding of [3H]HTX, decreasing its affinity for the AChR 5-fold both in the presence and absence of agonist. In contrast, TID has little effect on [3H]PCP binding in the absence of agonist but completely inhibits it in the presence of agonist. TID enhances the cooperativity of [3H]nicotine binding. [125I]TID is thus a photoaffinity label for a novel noncompetitive antagonist binding site on the AChR that is linked allosterically to the binding sites of both agonists and other noncompetitive antagonists. The [125I]TID site is presumably located within the central pore of the AChR.
我们之前已经表明,亲脂性光试剂3-(三氟甲基)-3-m-([¹²⁵I]碘苯基)-重氮丙啶([¹²⁵I]TID)可对电鳐烟碱型乙酰胆碱受体(AChR)的所有四个亚基进行光标记,并且这种光掺入的70%以上可被胆碱能激动剂和一些非竞争性拮抗剂抑制,包括组氨毒碱(HTX),但不能被苯环己哌啶(PCP)抑制(White, B.H., 和Cohen, J.B. (1988) Biochemistry 27, 8741 - 8751)。我们现在研究了非放射性TID对(a)[¹²⁵I]TID的AChR光掺入、(b)AChR介导的离子转运以及(c)几种胆碱能配体的AChR结合的影响。我们发现TID对[¹²⁵I]TID掺入AChR的抑制程度与氨甲酰胆碱相同。[¹²⁵I]TID光标记的可饱和成分在4 μM [¹²⁵I]TID时达到半数最大效应,在用60 μM [¹²⁵I]TID光解30分钟后,每摩尔AChR特异性掺入0.5摩尔。在固定的[¹²⁵I]TID浓度下对膜进行重复标记,结果与每个AChR最大掺入一个[¹²⁵I]TID分子一致。非放射性TID也非竞争性地抑制激动剂刺激的电鳐囊泡中²²Na⁺外流,IC₅₀为1 μM。此外,TID变构抑制[³H]HTX的结合,在有或没有激动剂的情况下,其对AChR的亲和力均降低5倍。相比之下,TID在没有激动剂时对[³H]PCP结合影响很小,但在有激动剂时完全抑制它。TID增强了[³H]尼古丁结合的协同性。因此,[¹²⁵I]TID是AChR上一个新型非竞争性拮抗剂结合位点的光亲和标记,该位点与激动剂和其他非竞争性拮抗剂的结合位点变构相连。[¹²⁵I]TID位点大概位于AChR的中央孔内。
