Bennett J P, snyder S H
Brain Res. 1975 Sep 5;94(3):523-44. doi: 10.1016/0006-8993(75)90234-6.
D-[3H]LSD binds saturably, reversibly, and with a high affinity (KD = 10 nM) to rat brain membranes. The association and dissociation rates of binding are temperature dependent and fastest at 37 degrees C. Binding is enriched in crude microsomal (P3) membranes. D-[3H]LSD binding is stereospecific as L-LSD, the psychotropically inactive enatiomer, is 1000 times weaker than D-LSD as a displacing agent. The potencies of other LSD analogues parallel their psychotropic activity with the exception of 2-bromo-LSD (psychotropically inactive) which is as potent as D-LSD in displacing bound D-[3H]LSD. Serotonin is the only putative neurotransmitter with affinity (ED50 = 3 muM) for the LSD binding site, and psychotropically active alkylindoleamines are also potent displacing agents. Destruction of presynaptic serotonin neuronal elements by lesioning the midbrain raphe nuclei does not chang the affinity or maximum number of detectable in vitro D-[3H]LSD bindind sites. The regional distribution in monkey brain of D-[3H]LSD binding and high affinity [3h]serotonin uptake, a marker for pre-synaptic serotonin nerve terminal density, shows some correlation. The most notable exceptions are cerebral cortical areas which are highest in D-[3H]LSD binding and only intermediate in [3h]serotonin uptake. Our evidence suggests that D-[3H]LSD binds to post-synaptic serotonin receptors.
D-[3H]麦角酸二乙酰胺(LSD)能以饱和、可逆且高亲和力(KD = 10 nM)的方式与大鼠脑膜结合。结合的缔合和解离速率取决于温度,在37摄氏度时最快。结合在粗微粒体(P3)膜中更为丰富。D-[3H]LSD的结合具有立体特异性,因为精神活性无活性对映体L-LSD作为置换剂的效力比D-LSD弱1000倍。除了2-溴-LSD(精神活性无活性)在置换结合的D-[3H]LSD方面与D-LSD效力相当外,其他LSD类似物的效力与其精神活性平行。血清素是唯一对LSD结合位点具有亲和力(ED50 = 3 μM)的假定神经递质,具有精神活性的烷基吲哚胺也是有效的置换剂。通过损伤中脑缝际核破坏突触前血清素神经元元件并不会改变体外可检测到的D-[3H]LSD结合位点的亲和力或最大数量。D-[3H]LSD结合和高亲和力[3H]血清素摄取(突触前血清素神经末梢密度的标志物)在猴脑中的区域分布显示出一定的相关性。最显著的例外是大脑皮质区域,其D-[3H]LSD结合最高,而[3H]血清素摄取仅处于中等水平。我们的证据表明D-[3H]LSD与突触后血清素受体结合。
