Protease inhibitors. Part 2. Weakly basic thrombin inhibitors incorporating sulfonyl-aminoguanidine moieties as S1 anchoring groups: synthesis and structure-activity correlations.

Journal of enzyme inhibition Pub Date : 2000-01-01 DOI:10.3109/14756360009040686

B W Clare, A Scozzafava, F Briganti, B Iorga, C T Supuran

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引用次数: 7

Abstract

Two series of derivatives have been prepared and assayed as inhibitors of two physiologically relevant serine proteases, human thrombin and human trypsin. The first series includes alkyl-/ aralkyl-/aryl- and hetarylsulfonyl-aminoguanidines. It was thus observed that sulfanilyl-aminoguanidine possesses moderate but intrinsically selective thrombin inhibitory properties, with KI values around 90 and 1400 nM against thrombin and trypsin respectively. Further elaboration of this molecule afforded compounds that inhibited thrombin with KI values in the range 10-50 nM, whereas affinity for trypsin remained relatively low. Such compounds were obtained either by attaching benzyloxycarbonyl- or 4-toluenesulfonylureido-protected amino acids (such as D-Phe, L-Pro) or dipeptides (such as Phe-Pro, Gly His, beta-Ala-His or Pro-Gly) to the N-4 atom of the lead molecule, sulfanilyl-aminoguanidine, or by attaching substituted-pyridinium propylcarboxamido moieties to this lead. Thus, this study brings novel insights regarding a novel non-basic S1 anchoring moiety (i.e., SO2NHNHC(=NH)NH2), and new types of peptidomimetic scaffolds obtained by incorporating tosylureido-amino acids/pyridinium-substituted-GABA moieties in the hydrophobic binding site(s). Structure-activity correlations of the new serine protease inhibitors are also discussed based on a QSAR model described previously for a large series of structurally-related derivatives (Supuran et al. (1999) J. Med. Chem., in press).

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蛋白酶抑制剂。第2部分。结合磺酰基氨基胍作为S1锚定基团的弱碱性凝血酶抑制剂:合成和构效相关性。

制备了两个系列的衍生物，作为两种生理相关丝氨酸蛋白酶的抑制剂，人凝血酶和人胰蛋白酶。第一个系列包括烷基-/芳烷基-/芳基-和己基磺酰氨基胍。由此可见，磺胺基氨基胍对凝血酶和胰蛋白酶的KI值分别在90 nM和1400 nM左右，具有中等但内在选择性的凝血酶抑制特性。该分子的进一步细化提供了KI值在10-50 nM范围内抑制凝血酶的化合物，而对胰蛋白酶的亲和力仍然相对较低。这些化合物可以通过将苯氧羰基或4-甲苯磺酰脲保护氨基酸(如D-Phe, L-Pro)或二肽(如ph -pro, Gly His， β - ala -His或Pro-Gly)连接到铅分子的N-4原子，磺胺基氨基胍，或通过将取代的吡啶丙基羧胺部分连接到该铅上而获得。因此，本研究对新型非碱性S1锚定片段(即SO2NHNHC(=NH)NH2)以及通过在疏水结合位点结合tosylureido-氨基酸/吡啶取代- gaba片段获得的新型肽类支架提供了新的见解。新的丝氨酸蛋白酶抑制剂的结构-活性相关性也基于先前描述的一系列结构相关衍生物的QSAR模型进行了讨论(Supuran et al. (1999) J. Med. Chem。(待印)。

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Journal of enzyme inhibition

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