Bernatowicz M S, Klimas C E, Hartl K S, Peluso M, Allegretto N J, Seiler S M
Bristol-Myers Squibb Pharmaceutical Research Institute, Princeton, New Jersey 08543, USA.
J Med Chem. 1996 Dec 6;39(25):4879-87. doi: 10.1021/jm960455s.
A peptide-based structure-activity study is reported leading to the discovery of novel potent thrombin receptor antagonists. Systematic substitution of nonproteogenic amino acids for the second and third residues of the human thrombin receptor "tethered ligand" sequence (SFLLR) led to a series of agonists with enhanced potency. The most potent pentapeptide agonist identified was Ser-p-fluoroPhe-p-guanidinoPhe-Leu-Arg-NH2, 9 (EC50 approximately 0.04 microM for stimulation of human platelet aggregation, approximately 10-fold more potent than the natural pentapeptide). Systematic substitution of the NH2-terminal Ser in 9 with neutral hydrophobic NH2-acyl groups led to partial agonists and eventually antagonists with unprecedented potency (greater than 1000-fold increase over the previously reported antagonist 3-mercaptopropionyl-Phe-Cha-Cha-Arg-Lys-Pro-Asn-Asp-Lys-NH2). In the series of NH2-acyl tetrapeptide antagonists, N-transcinnamoyl-p-fluoroPhe-p-guanidinoPhe-Leu-Arg-NH 2, 41 (BMS-197525), was identified as the tightest binding (IC50 approximately 8 nM) and most potent with an IC50 approximately 0.20 microM for inhibition of SFLLRNP-NH2-stimulated platelet aggregation. Systematic single substitutions in 41 indicated that, in addition to the NH2-terminal acyl group, the side chains at the second and third positions were also responsible for important and specific receptor interactions. The p-fluoroPhe and p-guanidinoPhe residues in the second and third positions of 41 were observed to be optimal in both the agonist and antagonist series. In the case of antagonists, however, an appropriately positioned positively charged group (i.e., protonated base) at the third residue was required. In contrast, such a substitution was not required for potent agonist activity. An even more potent antagonist resulted when 41 was extended at the C-terminus by a single Arg residue giving rise to analog 90 (BMS-200261) which had an IC50 approximately 20 nM for inhibition of SFLLRNP-NH2-stimulated platelet aggregation. When the C-terminal Arg of 90 was replaced by an Orn-(Ndelta-propionyl) residue, the resulting antagonist 91 (BMS-200661) was suitable for use in radioligand binding assays (Kd = 10-30 nM). Antagonist activity observed for selected compounds was verified through secondary assays in that these analogs prevented SFLLRNP-NH2-stimulated GTPase activity in platelet membranes and Ca2+ mobilization in cultured human smooth muscle cells and mouse fibroblasts. Furthermore, this inhibition occurred at concentrations that had no effect on thrombin catalytic activity indicating a specific activity attributable to receptor binding and not enzyme inhibition.
报道了一项基于肽的构效关系研究,该研究导致发现了新型强效凝血酶受体拮抗剂。用人凝血酶受体“拴系配体”序列(SFLLR)的第二个和第三个残基系统地替换非蛋白氨基酸,产生了一系列活性增强的激动剂。鉴定出的最有效五肽激动剂是Ser-p-氟苯丙氨酸-p-胍基苯丙氨酸-亮氨酸-精氨酸-NH2,9(刺激人血小板聚集的EC50约为0.04μM,比天然五肽强约10倍)。用中性疏水NH2-酰基系统地替换9中的NH2-末端丝氨酸,产生了部分激动剂,最终产生了具有前所未有效力的拮抗剂(比先前报道的拮抗剂3-巯基丙酰基-苯丙氨酸-环己基丙氨酸-环己基丙氨酸-精氨酸-赖氨酸-脯氨酸-天冬酰胺-天冬氨酸-赖氨酸-NH2强1000倍以上)。在一系列NH2-酰基四肽拮抗剂中,N-反式肉桂酰基-p-氟苯丙氨酸-p-胍基苯丙氨酸-亮氨酸-精氨酸-NH2,41(BMS-197525)被鉴定为结合最紧密(IC50约为8 nM)且最有效,抑制SFLLRNP-NH2刺激的血小板聚集的IC50约为0.20μM。41中的系统单取代表明,除了NH2-末端酰基外,第二个和第三个位置的侧链也负责重要和特异性的受体相互作用。观察到41的第二个和第三个位置的p-氟苯丙氨酸和p-胍基苯丙氨酸残基在激动剂和拮抗剂系列中都是最佳的。然而,对于拮抗剂,在第三个残基处需要一个适当定位的带正电荷基团(即质子化碱)。相比之下,强效激动剂活性不需要这种取代。当41在C末端延伸一个精氨酸残基产生类似物90(BMS-200261)时,得到了一种更有效的拮抗剂,其抑制SFLLRNP-NH2刺激的血小板聚集的IC50约为20 nM。当90的C末端精氨酸被Orn-(Nδ-丙酰基)残基取代时,得到的拮抗剂91(BMS-200661)适用于放射性配体结合测定(Kd = 10 - 30 nM)。通过二级试验验证了所选化合物的拮抗剂活性,因为这些类似物可防止SFLLRNP-NH2刺激的血小板膜中GTP酶活性以及培养的人平滑肌细胞和小鼠成纤维细胞中的Ca2+动员。此外,这种抑制发生在对凝血酶催化活性无影响的浓度下,表明这是一种归因于受体结合而非酶抑制的特异性活性。
