Erowid.org: Erowid Reference 3570 : Properties Of Dopamine Agonist And Antagonist Binding Sites In Mammalian Retina : Makman MH, Dvorkin B, Horowitz SG, Thal LJ

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Makman MH, Dvorkin B, Horowitz SG, Thal LJ. “Properties Of Dopamine Agonist And Antagonist Binding Sites In Mammalian Retina”. Brain Research. 1980;194:403-418. <a name="ref">Makman MH, Dvorkin B, Horowitz SG, Thal LJ.</a> <a href="/references/3570">"Properties Of Dopamine Agonist And Antagonist Binding Sites In Mammalian Retina"</a> <i>Brain Research</i>. 1980;194:403-418.
Text Abstract (this page) Full Text - English (203 K) Show Articles by Makman MH Dvorkin B Horowitz SG Thal LJ Article IDs LSDID: 3372 Erowid RefID: 3570 PubMedID: unknown Collections Hofmann Collection MDMA Collection All References	Abstract Retinal homogenates of calf, rat, rabbit and Rebus appella and Macaca Malaya monkeys were found to contain stereospecific binding sites for the dopamine antagonist [3H]spiroperidol. In further studies with calf and rat retina, stereospecific binding sites were also found for the dopamine agonist [3H]ADTN (2-amino-6,7,dihydroxy-1,2,3,4-tetrabydronapththalene). The [3H]spiroperidol binding sites in calf retina were pharmacologically similar to the dopaminergic spiroperidol binding sites previously demonstrated to be present in striatum. However, calf and rabbit retina contained less than 1/10 the concentration of [3H]spiroperidol binding sites found in striatum. Saturation studies and Scatchard analyses showed a single class of [3H]spiroperidot binding sites with Kd (apparent dissociation constant) = 0.3 and 0.2 nM and Bmax (binding site number) = 38 and 24 fmo]/mg protein in calf retina and rabbit retina respectively. Rates of [3H]spiroperidol association and dissociation were also evaluated in calf retina. Drug specificity for [3H]ADTN binding in calf retina resembled that previously reported for striatal [3H]ADTN binding and thus differed from retina] [3H]spiroperidol binding. Calf retina] [3H]ADTN binding sites had a Kd = 9 nM and Bmax = 113 +/- 12 fmol/mg protein. Thus, the total number of [3H]ADTN sites in retina was at least twice that of [3H]spiroperidol sites. Guanine nucleotides (GTP and Gpp (NH)p) but not ATP reduced the affinity of the dopamine agonist ADTN for [3H]spiroperidol binding, and also reduced the specific binding of [3H]ADTN itself up to a maximal value of about 50 0f control binding. Saturation studies of calf retinal [3H]ADTN binding confirmed that Gpp(NH)p-displaceab]e sites were a discrete saturable subset of stereospecific [3H]ADTN sites with Kd = 9 nM and Bmax = 50 +/- 6 fmo]/mg protein. The Gpp(NH)p insensitive sites had a Kd = 9 nM and Bmax = 63 +/- 7 [mol/mg protein. It is proposed that although [3H]ADTN sites differ pharmacologically from [3H] spiroperidol sites, since [3H]spiroperido] sites are guanine nuc]eotide-sensitive and similar in number to the guanine nucleotide-sensitive class of [3H]ADTN sites, they may possibly be related to these sites as well as to adenylate cyclase. In addition, retina contains guanine nuc]eotide-insensitive [3H]-ADTN sites, possibly presynaptic and probably not coupled to adenylate cyclase.
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