Erowid.org: Erowid Reference 3564 : "SPECIFIC BINDING" OF 3H-PHENCYCLIDINE: ARTIFACTS OF THE RAPID FILTRATION METHOD : Maayani S, Weinstein H

Erowid References Database

Maayani S, Weinstein H. “"SPECIFIC BINDING" OF 3H-PHENCYCLIDINE: ARTIFACTS OF THE RAPID FILTRATION METHOD”. Life Sciences. 1980;26(23):2011-2022. <a name="ref">Maayani S, Weinstein H.</a> <a href="/references/3564">""SPECIFIC BINDING" OF 3H-PHENCYCLIDINE: ARTIFACTS OF THE RAPID FILTRATION METHOD"</a> <i>Life Sciences</i>. 1980;26(23):2011-2022.
Text Abstract (this page) Full Text - English (811 K) Show Articles by Maayani S Weinstein H Article IDs LSDID: 3366 Erowid RefID: 3564 PubMedID: unknown Collections Hofmann Collection MDMA Collection All References	Abstract Attempting to understand the nature of the specific binding of [3H]-phencyclidine JH-PCP) to rat brain membranes, demonstrated reGently with the rapid filtration method (1: Vincent et al., PEAS 76: 4678, 1979; II: Zukin and Zukin, ibid., 5372), we' found that 3H-PCP binds to GF/B glass fiber filters in a manner indistinguishable from Òspecific binding". The apparent Ed for this binding is 0.24 + 0.12 mcM, not significantly different from the values in I and II. Binding of 3H-PCP to the P fraction of rat brain membranes is not affected by denaturing,the [issues in boiling water. The apparent Kd and Bmax values are nearly the same for the native and denatured P2 fractions. The definition of pharmacologically meaningful binding sites for H-PCP by the rapid filtration method is further hampered by the fast dissociation rate of bound 3H-PCP, as expected from the relatively large Kd. The amount bound is sensitive to the separation (washing) PROCEDURE: two volumes of 5ml reduce specific binding to native tissue by 60X, four volumes reduce it by 80%. We show that these characteristics of-3H-PCP binding to both GF/B filters and denatured tissue are not shared by other radioligands, such as 3H-Dlysergic acid diethylamide (3H-D-LSD) and dH-t+)3-qinuclidinyl benzylate (3H-QNB). The very large filter binding of H-PCP is shown to be the reason for spurious differences in the density of PCP binding sites in various brain regions: we find that the amount of JH-PCP bound per assay is equal in each of the ten brain regions studied but that, due to differing amounts of protein in assays from different regions, an apparent regional distribution of binding sites is obtained when the results are normalized to binding per mg protein. the competition of other ligands for 3H-PCP binding to all three materials glass fiber filters, native and denatured P2 fraction yields nearly identical ICED values and potency rankings. These values are in good agreement with I and II indicating that in this case the pharmacological identity criterion does not discriminate between receptor and nonreceptor interactions. We conclude that the artifacts created in this case by the rapid filtration method render it unsuitable for labeling the pharmacologically relevant binding sites of H-PCP. If specific PCP receptors exist, as claimed in I and II, methods other than rapid filtration must be used to reveal them.
Comments and Responses to this Article #
Submit Comment

[ Cite HTML ]