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  • Influence of trishomocubanes on sigma receptor binding of N-(1-benzyl-piperidin-4-yl)-4-[123I]iodobenzamide in vivo in the rat brain.

Influence of trishomocubanes on sigma receptor binding of N-(1-benzyl-piperidin-4-yl)-4-[123I]iodobenzamide in vivo in the rat brain.

Medicinal chemistry (Shariqah (United Arab Emirates)) (2006-06-23)
Xiang Liu, Filomena Mattner, Andrew Katsifis, MacDonald Christie, Michael Kassiou
RESUMEN

Three new trishomocubane analogues based on the 4-azahexacyclo[5.4.1.0(2,6).0(3,10).0(5,9).0(8,11)] dodecane-3-ol skeleton have been synthesised and assessed for their affinities at both sigma-1 and sigma-2 receptors. The effect of various N-substitution on the polycyclic moiety was examined. All synthesised compounds displayed high affinity for sigma-1 receptors (9-10 nM) and good affinity for sigma-2 receptors (230-310 nM), suggesting that substitution at the nitrogen moiety of the trishomocubane is well tolerated and represents a platform for the development of improved higher affinity sigma receptor ligands. The interaction of these functionalised trishomocubanes on the binding of the known sigma receptor radioligand, 4-[123I]IBP, was evaluated in the rat brain. Although 4-[123I]IBP had been used for imaging sigma receptors in tumours, this is the first examination of sigma receptor binding in the rat brain and therefore the potential of 4-[123I]IBP for imaging the brain was also evaluated. In vivo specificity and selectivity of 4-[123I]IBP binding was examined by studying the effects of pre-administration of sigma receptor binding drugs (+)-pentazocine and unlabelled 4-IBP. This resulted in a blockade of only 42% of 4-[123I]IBP uptake in the brain indicating high degree of non-specific binding suggesting that it may not be suitable for imaging sigma receptors in the brain. The inhibition of 4-[123I]IBP uptake using the two of the three trishomocubanes displayed a consistent blockade of 48-30% in all brain structures. This demonstrates for the first time the ability of functionalised trishomocubanes to interact with sigma receptors in vivo.

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3,4-Dichlorophenethylamine, 97%