Boronic acid adducts of technetium dioxime (BATO) complexes derived from quinuclidine benzilate (QNB) boronic acid stereoisomers: Syntheses and studies of their binding to the muscarinic acetylcholine receptor

Autor:	William C. Eckelman, Silvia S. Jurisson, Adrian D. Nunn, Elaine Jagoda, P. Nanjappan, Pirro John P, David P. Nowotnik, Karen C. Rosenspire, Richard J. DiRocco
Rok vydání:	1995
Předmět:	Cancer Research Stereochemistry Stereoisomerism Chemical synthesis Adduct Rats Sprague-Dawley Structure-Activity Relationship chemistry.chemical_compound Muscarinic acetylcholine receptor Animals Tissue Distribution Radiology Nuclear Medicine and imaging Molecular Structure Myocardium Brain Organotechnetium Compounds Ligand (biochemistry) Boronic Acids Receptors Muscarinic Rats Quinuclidinyl Benzilate chemistry Autoradiography Molecular Medicine Boronic acid Quinuclidine
Zdroj:	Nuclear Medicine and Biology. 22:269-281
ISSN:	0969-8051
Popis:	We have investigated the possibility of using BATO complexes derivatized with the muscarinic acetylcholine receptor (mAChR) antagonist, quinuclidinyl benzilate (QNB), for mAChR imaging. The BATO complexes, TcCl(DMG)3B-QNB, were prepared using QNB derivatives containing a 4'-boronic acid substituent on one of the benzilic benzene rings (QNB-boronic acid). The QNB-boronic acid molecule has two chiral centers, and all four QNB-BATO stereoisomers were made and evaluated. When studied using in vitro receptor binding assays based on tissue from rat brain caudate-putamen (which contains primarily M1 and M4 mAChR) and rat heart (M2 mAChR), the QNB-boronic acid stereoisomers had binding affinities (KA) in the range 2 x 10(5)-1 x 10(8), at least 10-fold lower than the KA for QNB (ca 2 x 10(9)). The stereochemistry of both centers had some influence on the affinity constant. When the TcCl(DMG)3B-QNB complexes were studied, none of the stereoisomeric complexes displayed measurable specific binding (KA < 10(6)), but all showed high non-specific binding. In vitro autoradiography with rat brain slices confirmed the absence of specific binding in these tracers. In vivo, the 99mTcCl(DMG)3B-QNB complexes displayed minimal brain uptake, and modest heart uptake; the latter was unlikely to be related to uptake by the mAChR. In light of these findings, we conclude that the interaction between the TcCl(DMG)3B-QNB complexes and biological membranes is dominated by the hydrophobicity of the BATO moiety. The TcCl(DMG)3B-QNB complexes, therefore, have little potential for mAChR imaging.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::31d450cbdad85e827a99d4c09cbad247 https://doi.org/10.1016/0969-8051(94)00125-4 Zobrazit plný text záznamu Full Text from ScienceDirect