二萘并嘧啶类似物的合成与构效关系探索

Synthesis and SAR exploration of dinapsoline analogues.

作者信息

Sit Sing-Yuen, Xie Kai, Jacutin-Porte Swanee, Boy Kenneth M, Seanz James, Taber Matthew T, Gulwadi Amit G, Korpinen Carolyn D, Burris Kevin D, Molski Thaddeus F, Ryan Elaine, Xu Cen, Verdoorn Todd, Johnson Graham, Nichols David E, Mailman Richard B

机构信息

Department of Neuroscience Drug Discovery Chemistry, Bristol-Myers Squibb Pharmaceutical Research Institute, 5 Research Parkway, Wallingford, CT 06492-7660, USA.

出版信息

Bioorg Med Chem. 2004 Feb 15;12(4):715-34. doi: 10.1016/j.bmc.2003.11.015.

DOI:10.1016/j.bmc.2003.11.015

Abstract

Dinapsoline is a full D(1) dopamine receptor agonist that produces robust rotational activity in the unilateral 6-OHDA rat model. This compound is orally active, and shows a low tendency to cause tolerance in rat models. The active enantiomer was determined to have the S-(+) configuration, and the opposite enantiomer is essentially devoid of biological activity. Taken together, dinapsoline has significant metabolic and pharmacological advantages over previous D(1) agonists. In an attempt to define the structure-activity relationships (SARs) and to map out the key elements surrounding the unique structure of dinapsoline, core analogues and substitution analogues of the parent tetracyclic condensed ring structure were prepared. Based on a recently developed synthesis of dinapsoline and its enantiomers, both core and substitution analogues on all four rings (A, B', C and D ring) of dinapsoline were synthesized. It was found that affinity for both D(1)and D(2) receptors was decreased by most substituents on the A, B', and C rings, whereas D ring substitutions preserved much of the dopamine receptor binding activity.

摘要

地那索林是一种完全的D(1)多巴胺受体激动剂，在单侧6-羟基多巴胺大鼠模型中可产生强烈的旋转活动。该化合物具有口服活性，并且在大鼠模型中产生耐受性的倾向较低。已确定活性对映体具有S-(+)构型，而其对映体基本没有生物活性。总体而言，与先前的D(1)激动剂相比，地那索林具有显著的代谢和药理学优势。为了确定构效关系（SARs）并勾勒出围绕地那索林独特结构的关键要素，制备了母体四环稠环结构的核心类似物和取代类似物。基于最近开发的地那索林及其对映体的合成方法，合成了地那索林所有四个环（A、B'、C和D环）上的核心类似物和取代类似物。结果发现，A、B'和C环上的大多数取代基都会降低对D(1)和D(2)受体的亲和力，而D环取代则保留了大部分多巴胺受体结合活性。

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