George S R, Watanabe M, Seeman P
J Neurochem. 1985 Apr;44(4):1168-77. doi: 10.1111/j.1471-4159.1985.tb08740.x.
Although dopamine agonists can recognize two states of the D2 dopamine receptor in the anterior pituitary (D2high and D2low), we examined whether the dopamine antagonists such as [3H]spiperone could recognize these two sites with different affinities. Using up to 30 concentrations of [3H]spiperone, however, we could only detect a single population of binding sites (porcine anterior pituitary homogenates) with a dissociation constant (KD) of 130 pM. When specific [3H]spiperone binding was defined by a low concentration of (+)-butaclamol (100 nM), the apparent density was low. When defined by a high concentration of (+)-butaclamol (10 microM), nonspecific sites became detectable, thus revealing two apparent populations of sites for [3H]spiperone, only one of which was specific for dopamine. Sodium chloride reduced the KD of the single population of specific D2 sites to 64 pM. Guanine nucleotide by itself had no effect on the KD, but enhanced the density by 25%. Since the density-enhancement could be eliminated by extensive washing of membranes, and could be restored by preincubation with dopamine, the nucleotide-induced elevation of D2 density appeared to be a result of the release of tightly bound endogenous dopamine. Thus, monovalent cations and guanine nucleotides appear to have separate regulatory effects on the anterior pituitary D2 receptor that modulate antagonist-receptor interactions. Several maneuvers were used to test whether [3H]spiperone could differentiate between the two agonist-detected subpopulations of sites. Twentyfold different concentrations of [3H]spiperone (47 pM and 1000 pM) were found to label identical proportions of receptors in the D2high and D2low states as detected by the agonist 6,7-dihydroxyaminotetralin (ADTN), suggesting that spiperone labelled equal proportions of D2high and D2low sites without differential affinity for them. In addition, competition of spiperone for D2high sites selectively labelled by the agonist [3H]n-propylnorapomorphine (NPA) had a virtually identical KD for spiperone as did the total D2 receptor population as determined by direct binding studies (75 pM versus 64 pM). [3H]Spiperone also bound to a uniform population of D2low sites induced by preincubation with guanine nucleotide with identical affinity as to the total D2 population. Thus, these data do not support a "reciprocal model" for the D2 receptor (i.e., antagonist having low affinity for D2high and high affinity for D2low in a manner reciprocal to agonists).(ABSTRACT TRUNCATED AT 400 WORDS)
尽管多巴胺激动剂能够识别垂体前叶中D2多巴胺受体的两种状态(D2高亲和力态和D2低亲和力态),但我们研究了诸如[3H]螺哌隆等多巴胺拮抗剂是否能以不同亲和力识别这两个位点。然而,使用高达30种浓度的[3H]螺哌隆,我们仅能检测到一群解离常数(KD)为130 pM的结合位点(猪垂体前叶匀浆)。当用低浓度的(+)-布他拉莫(100 nM)定义特异性[3H]螺哌隆结合时,表观密度较低。当用高浓度的(+)-布他拉莫(10 μM)定义时,非特异性位点变得可检测到,从而揭示了[3H]螺哌隆的两个表观位点群,其中只有一个对多巴胺具有特异性。氯化钠将特异性D2位点的单一群的KD降低至64 pM。鸟嘌呤核苷酸本身对KD没有影响,但使密度增加了25%。由于通过广泛洗涤膜可以消除密度增加,并且通过与多巴胺预孵育可以恢复,核苷酸诱导的D2密度升高似乎是紧密结合的内源性多巴胺释放的结果。因此,单价阳离子和鸟嘌呤核苷酸似乎对垂体前叶D2受体具有独立的调节作用,可调节拮抗剂 - 受体相互作用。我们采用了多种方法来测试[3H]螺哌隆是否能够区分激动剂检测到的两个位点亚群。发现二十倍不同浓度的[3H]螺哌隆(47 pM和1000 pM)标记的D2高亲和力态和D2低亲和力态受体比例相同,这是通过激动剂6,7 - 二羟基氨基四氢萘(ADTN)检测到的,表明螺哌隆标记的D2高亲和力态和D2低亲和力态位点比例相同,对它们没有差异亲和力。此外,螺哌隆对由激动剂[3H]正丙基去甲阿朴吗啡(NPA)选择性标记的D2高亲和力位点的竞争,其对螺哌隆的KD与通过直接结合研究确定的总D2受体群体的KD几乎相同(75 pM对64 pM)。[3H]螺哌隆也以与总D2群体相同的亲和力结合到由鸟嘌呤核苷酸预孵育诱导的均匀的D2低亲和力位点群体上。因此,这些数据不支持D2受体的“相互模型”(即拮抗剂对D2高亲和力态具有低亲和力,对D2低亲和力态具有高亲和力,其方式与激动剂相反)。(摘要截断于400字)
