Wolfe S A, Culp S G, De Souza E B
Addiction Research Center, National Institute on Drug Abuse, Baltimore, Maryland 21224.
Endocrinology. 1989 Mar;124(3):1160-72. doi: 10.1210/endo-124-3-1160.
We have used a variety of selective radioligands to identify and localize sigma- and phencyclidine (PCP)-binding sites in rat endocrine organs. [3H]Haloperidol-labeled sigma-receptors were identified in membrane homogenates of rat pituitary, adrenal, testis, and ovary which had kinetic and pharmacological characteristics similar to those of the well characterized sigma-receptors in rat cerebellum. The highest density of sigma-receptors was present in the ovary, with progressively lower densities present in the testis, pituitary, adrenal, and cerebellum, respectively. In autoradiographic studies, sigma-receptors [labeled with d-3-(3-hydroxyphenyl)N-(1-propyl-2,3-[3H]piperidine or [3H]1,3-di-(2-tolyl)guanidine] were discretely localized within the endocrine tissues. In the pituitary, the highest density of sigma-receptors was found in the anterior lobe. In the adrenal, sigma-receptors were localized primarily in the cortex. In the testis, sigma-receptors were present in highest concentrations in the ductuli efferentes and ductus epididymis; lower densities of binding sites were present in the seminiferous tubules, and no binding was seen in the interstitial tissue. In the ovary, sigma-receptors were localized in high density in the maturing follicles, and lower densities were present in resting follicles. After hypophysectomy, there were relative increases in the densities of sigma receptors in the remaining tissue in the adrenal gland and testis. In contrast, hypophysectomy resulted in a marked depletion of sigma-binding sites in the ovary. The data from hypophysectomized rats indicate that the highest densities of sigma-receptors in the ovary are localized to (LH-dependent) maturing follicles, while sigma-binding sites in adrenal and testis are localized to cells that are not dependent on trophic maintenance by the pituitary. In contrast, high affinity PCP receptors were not detected in pituitary, adrenal, testis, or ovary either by homogenate binding studies with 3,4-[3H]N-[1-(2-thienyl)cyclohexyl]piperidine or in vitro autoradiography using 3,4-[3H]N-[1-(2-thienyl)cyclohexyl]piperidine and d-[3H]5-methyl-10,11-dihydro-5H-dibenzo-[a,d] + cyclohepten-5,10-imine. In summary, the data suggest that the reported endocrine effects of PCP and the prototypic sigma-receptor agonist N-allylnormetazocine are probably mediated either through direct action on sigma-receptors in the pituitary and/or target endocrine organs or by actions on sigma- and/or PCP receptors in brain.
我们使用了多种选择性放射性配体来鉴定和定位大鼠内分泌器官中的σ和苯环己哌啶(PCP)结合位点。在大鼠垂体、肾上腺、睾丸和卵巢的膜匀浆中鉴定出了[3H]氟哌啶醇标记的σ受体,其动力学和药理学特性与大鼠小脑中特征明确的σ受体相似。σ受体密度最高的是卵巢,其次是睾丸、垂体、肾上腺和小脑,密度逐渐降低。在放射自显影研究中,用d-3-(3-羟基苯基)N-(1-丙基-2,3-[3H]哌啶或[3H]1,3-二-(2-甲苯基)胍标记的σ受体在这些内分泌组织中呈离散分布。在垂体中,σ受体密度最高的是前叶。在肾上腺中,σ受体主要定位于皮质。在睾丸中,σ受体浓度最高的是输出小管和附睾管;生精小管中的结合位点密度较低,间质组织中未见结合。在卵巢中,σ受体高密度定位于成熟卵泡,静止卵泡中的密度较低。垂体切除后,肾上腺和睾丸剩余组织中的σ受体密度相对增加。相反,垂体切除导致卵巢中σ结合位点明显减少。垂体切除大鼠的数据表明,卵巢中σ受体密度最高的是(依赖促黄体生成素的)成熟卵泡,而肾上腺和睾丸中的σ结合位点定位于不依赖垂体营养维持的细胞。相比之下,无论是用3,4-[3H]N-[1-(2-噻吩基)环己基]哌啶进行匀浆结合研究,还是用3,4-[3H]N-[1-(2-噻吩基)环己基]哌啶和d-[3H]5-甲基-10,11-二氢-5H-二苯并-[a,d]+环庚烯-5,10-亚胺进行体外放射自显影,在垂体、肾上腺、睾丸或卵巢中均未检测到高亲和力PCP受体。总之,这些数据表明,PCP和原型σ受体激动剂N-烯丙基去甲唑辛所报道的内分泌效应可能是通过直接作用于垂体和/或靶内分泌器官中的σ受体,或通过作用于脑中的σ和/或PCP受体介导的。
