150208-29-0Relevant articles and documents
Synthesis and Evaluation of Conformationally Restricted N--N-methyl-2-(1-pyrrolidinyl)ethylamines at ? Receptors. 2. Piperazines, Bicyclic Amines, Bridged Bicyclic Amines, and Miscellaneous Compounds
Costa, Brian R. de,He, Xiao-shu,Linders, Joannes T.M.,Dominguez, Celia,Gu, Zi Qiang,et al.
, p. 2311 - 2320 (2007/10/02)
As a continuation of our earlier study (J.Med.Chem. 1992, 35, 4334-4343) we conformationally restricted the ?-receptor ligand 2-(1-pyrrolidinyl)-N--N-methylethylamine (1) by incorporating it into a series of homologous piperazines 3-9 and homopiperazines 10 and 11, diazabicyclononanes and decanes, bridgehead bicyclooctanes and nonanes as well as other miscellaneous compounds. ?-Receptor binding affinites were obtained using (+)-pentazocine in guinea pig brain membrane ?1 sites.The studies suggest that the nitrogen lone pair orient ation found in the piperazines affords the strongest binding interaction.Other nitrogen lone pair orientations or compounds representing unlikely staggered conformations of 1 -1,4-diazabicyclononane (16)> show very weak ? interaction.Comperison of the binding data of different N-substituted homologues of 1 with those of the 1--4-alkylpiperazines suggests that the two nitrogen atoms of 1 are working in opposition to one another in terms of their sensitivity to steric bulk.The high binding affinity of the 1,4-diazabicyclononanes 12 suggests that these may approximate the methyl and pyrrolidine ring conformations found in 1 when it is bound to the ? receptor.Compound 12 exhibited a 4-fold enantioselectivity favoring (+)-12.The synthesis of 6,7-dichloro-2-amino>tetralin (19) and its desmethyl derivative 20 permitted constraint of the 3,4-dichlorophenyl and N-methyl moieties of 1 into a gauche orientation.The binding data suggests that this conformation in 1 favors strong binding interaction at ?-receptors. ?-Receptor K1's ra nged from 0.55 nM for 1--4-n-butylpiperazine (7) to 654 nM for 16.Overall comparison of the results indicate that 1 is subject to considerable conformational freedom and suggests that the ?-receptor is not subject to rigid stereochemical restraints with 1.These results add to our earlier study where we restrained 1 using simple monocyclic heterocycles.