C16 and C17 derivatives of estradiol as inhibitors of 17 beta-hydroxysteroid dehydrogenase type 1: chemical synthesis and structure-activity relationships.

Drug design and discovery Pub Date : 1998-05-01
K M Sam, R P Boivin, M R Tremblay, S Auger, D Poirier
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Abstract

As a first part of our research focused on the synthesis of 17 beta-HSD type 1 inhibitors without estrogenic activity, we needed to identify a small, easy-to-handle pharmacophore able to block the enzymatic activity. Previous studies on the active site of the enzyme by affinity labeling gave us a basis for the design of steroidal inhibitors derivatives. Several estradiol derivatives bearing a short (three carbons) side chain in position 17 alpha or 16 alpha were synthesized and tested for their ability to inhibit the transformation of estrone into estradiol by 17 beta-HSD type 1 (cytosolic fraction of human placenta). We found that 16 alpha-derivatives of estradiol gave better 17 beta-HSD inhibition than their corresponding 17 alpha analogs. Among several chemical groups used in this study, we conclude that better 17 beta-HSD inhibition was obtained for compounds with a good leaving group at the end of side chain. Thus, an iodopropyl or a bromopropyl side chain at C16 alpha of estradiol (E2) inhibit efficiently the 17 beta-HSD type 1 with IC50 values of 0.42 and 0.46 microM, respectively. Their 17-keto analogs inhibit also the enzyme activity similarly. Since this kind of compounds inhibit the 17 beta-HSD type 1 in time-dependent manner and that enzymatic activity cannot be restored later, we conclude to inhibitor of inactivator type. This conclusion is in accordance with the correlation observed between the ability of leaving group to dissociate and their potency to inhibit 17 beta-HSD type 1. We have also observed that additional addition of untritiated estrone protect the enzyme against the inactivation caused by 16 alpha-bromopropyl-E2 suggesting a competitive inhibitor of 17 beta-HSD. The bromopropyl pharmacophore was then selected to be further added onto an antiestrogenic steroid nucleus.

雌二醇的C16和C17衍生物作为17 β -羟基类固醇脱氢酶1型抑制剂:化学合成和构效关系
作为我们研究的第一部分,我们的重点是合成17种没有雌激素活性的β - hsd 1型抑制剂,我们需要找到一种小的,易于处理的能够阻断酶活性的药效团。通过亲和标记对酶活性位点的研究为甾体抑制剂衍生物的设计提供了依据。我们合成了几个雌二醇衍生物,在17 α或16 α位置有一个短的(三个碳)侧链,并测试了它们抑制17 β - hsd 1型(人胎盘的细胞质部分)将雌二醇转化为雌二醇的能力。我们发现雌二醇的16个α衍生物比其相应的17 α类似物具有更好的17 β - hsd抑制作用。在本研究中使用的几个化学基团中,我们得出结论,侧链末端具有良好离去基的化合物具有较好的17 β - hsd抑制作用。因此,雌二醇(E2) C16 α的碘丙基或溴丙基侧链有效抑制17 β - hsd 1型,IC50值分别为0.42和0.46微米。它们的17-酮类似物也同样抑制酶的活性。由于这类化合物对17 β - hsd 1型的抑制具有时间依赖性,且酶活性无法恢复,因此我们认为这类化合物是灭活剂类型的抑制剂。这一结论与观察到的离基解离能力与其抑制17 β - hsd 1型的效力之间的相关性是一致的。我们还观察到,额外添加非营养雌酮可以保护酶免受16 α -溴丙基- e2引起的失活,这表明它是17 β - hsd的竞争性抑制剂。然后选择溴丙基药效团进一步添加到抗雌激素类固醇核上。
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