类固醇结合结构域样I和II区域的并置构成了σ-1受体中的一个配体结合位点。
Juxtaposition of the steroid binding domain-like I and II regions constitutes a ligand binding site in the sigma-1 receptor.
作者信息
Pal Arindam, Chu Uyen B, Ramachandran Subramaniam, Grawoig David, Guo Lian-Wang, Hajipour Abdol R, Ruoho Arnold E
机构信息
Department of Pharmacology, University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin 53705, USA.
出版信息
J Biol Chem. 2008 Jul 11;283(28):19646-56. doi: 10.1074/jbc.M802192200. Epub 2008 May 7.
sigma-1 receptors represent unique binding sites that are capable of interacting with a wide range of compounds to mediate different cellular events. The composition of the ligand binding site of this receptor is unclear, since no NMR or crystal structures are available. Recent studies in our laboratory using radiolabeled photoreactive ligands suggested that the steroid binding domain-like I (SBDLI) (amino acids 91-109) and the steroid binding domain-like II (SBDLII) (amino acids 176-194) regions are involved in forming the ligand binding site(s) ( Chen, Y., Hajipour, A. R., Sievert, M. K., Arbabian, M., and Ruoho, A. E. (2007) Biochemistry 46, 3532-3542 ; Pal, A., Hajipour, A. R., Fontanilla, D., Ramachandran, S., Chu, U. B., Mavlyutov, T., and Ruoho, A. E. (2007) Mol. Pharmacol. 72, 921-933 ). In this report, we have further addressed this issue by utilizing our previously developed sulfhydryl-reactive, cleavable, radioiodinated photocross-linking reagent: methanesulfonothioic acid, S-((4-(4-amino-3-[125I]iodobenzoyl) phenyl)methyl) ester (Guo, L. W., Hajipour, A. R., Gavala, M. L., Arbabian, M., Martemyanov, K. A., Arshavsky, V. Y., and Ruoho, A. E. (2005) Bioconjugate Chem. 16, 685-693). This photoprobe was shown to derivatize the single cysteine residues as mixed disulfides at position 94 in the SBDLI region of the wild type guinea pig sigma-1 receptor (Cys94) and at position 190 in the SBDLII region of a mutant guinea pig sigma-1 receptor (C94A,V190C), both in a sigma-ligand (haloperidol or (+)-pentazocine)-sensitive manner. Significantly, photocross-linking followed by Endo Lys-C cleavage under reducing conditions and intramolecular radiolabel transfer from the SBDLI to the SBDLII region in the wild type receptor and, conversely, from the SBDLII to the SBDLI region in the mutant receptor were observed. These data support a model in which the SBDLI and SBDLII regions are juxtaposed to form, at least in part, a ligand binding site of the sigma-1 receptor.
σ-1受体代表独特的结合位点,能够与多种化合物相互作用,介导不同的细胞事件。由于没有核磁共振(NMR)或晶体结构,该受体配体结合位点的组成尚不清楚。我们实验室最近使用放射性标记的光反应性配体进行的研究表明,类固醇结合结构域样I(SBDLI)(氨基酸91 - 109)和类固醇结合结构域样II(SBDLII)(氨基酸176 - 194)区域参与形成配体结合位点(Chen, Y., Hajipour, A. R., Sievert, M. K., Arbabian, M., and Ruoho, A. E. (2007) Biochemistry 46, 3532 - 3542 ; Pal, A., Hajipour, A. R., Fontanilla, D., Ramachandran, S., Chu, U. B., Mavlyutov, T., and Ruoho, A. E. (2007) Mol. Pharmacol. 72, 921 - 933)。在本报告中,我们通过使用我们之前开发的巯基反应性、可裂解的放射性碘化光交联试剂:甲磺硫代酸,S-((4-(4-氨基-3-[125I]碘苯甲酰基)苯基)甲基)酯,进一步解决了这个问题(Guo, L. W., Hajipour, A. R., Gavala, M. L., Arbabian, M., Martemyanov, K. A., Arshavsky, V. Y., and Ruoho, A. E. (2005) Bioconjugate Chem. 16, 685 - 693)。该光探针被证明能在野生型豚鼠σ-1受体的SBDLI区域的第94位(Cys94)和突变型豚鼠σ-1受体(C94A,V190C)的SBDLII区域的第190位,以σ-配体(氟哌啶醇或(+)-喷他佐辛)敏感的方式将单个半胱氨酸残基衍生化为混合二硫键。值得注意的是,在还原条件下进行Endo Lys-C裂解后进行光交联,并观察到野生型受体中分子内放射性标记从SBDLI转移到SBDLII区域,相反,在突变型受体中从SBDLII转移到SBDLI区域。这些数据支持了一个模型,即SBDLI和SBDLII区域并列,至少部分形成了σ-1受体的配体结合位点。
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