Alsayed Shahinda S R, Lun Shichun, Bailey Anders W, Suri Amreena, Huang Chiang-Ching, Mocerino Mauro, Payne Alan, Sredni Simone Treiger, Bishai William R, Gunosewoyo Hendra
Curtin Medical School, Faculty of Health Sciences, Curtin University Bentley Perth WA 6102 Australia
Center for Tuberculosis Research, Department of Medicine, Division of Infectious Disease, Johns Hopkins School of Medicine 1550, Orleans Street Baltimore Maryland 21231-1044 USA
RSC Adv. 2021 Apr 26;11(26):15497-15511. doi: 10.1039/d0ra10728j.
The omnipresent threat of tuberculosis (TB) and the scant treatment options thereof necessitate the development of new antitubercular agents, preferably working a novel mechanism of action distinct from the current drugs. Various studies identified the mycobacterial membrane protein large 3 transporter (MmpL3) as the target of several classes of compounds, including the indole-2-caboxamides. Herein, several indoleamide analogues were rationally designed, synthesised, and evaluated for their antitubercular and antitumour activities. Compound 8g displayed the highest activity (MIC = 0.32 μM) against the drug-sensitive (DS) () H37Rv strain. This compound also exhibited high selective activity towards over mammalian cells [IC (Vero cells) = 40.9 μM, SI = 128], suggesting its minimal cytotoxicity. In addition, when docked into the MmpL3 active site, 8g adopted a binding profile similar to the indoleamide ligand ICA38. A related compound 8f showed dual antitubercular (MIC = 0.62 μM) and cytotoxic activities against paediatric glioblastoma multiforme (GBM) cell line KNS42 [IC (viability) = 0.84 μM]. Compound 8f also showed poor cytotoxic activity against healthy Vero cells (IC = 39.9 μM). Compounds 9a and 15, which were inactive against , showed potent cytotoxic (IC = 8.25 and 5.04 μM, respectively) and antiproliferative activities (IC = 9.85 and 6.62 μM, respectively) against KNS42 cells. Transcriptional analysis of KNS42 cells treated with compound 15 revealed a significant downregulation in the expression of the carbonic anhydrase 9 (CA9) and the spleen tyrosine kinase (SYK) genes. The expression levels of these genes in GBM tumours were previously shown to contribute to tumour progression, suggesting their involvement in our observed antitumour activities. Compounds 9a and 15 were selected for further evaluations against three different paediatric brain tumour cell lines (BT12, BT16 and DAOY) and non-neoplastic human fibroblast cells HFF1. Compound 9a showed remarkable cytotoxic (IC = 0.89 and 1.81 μM, respectively) and antiproliferative activities (IC = 7.44 and 6.06 μM, respectively) against the two tested atypical teratoid/rhabdoid tumour (AT/RT) cells BT12 and BT16. Interestingly, compound 9a was not cytotoxic when tested against non-neoplastic HFF1 cells [IC (viability) = 119 μM]. This suggests that an indoleamide scaffold can be fine-tuned to confer a set of derivatives with selective antitubercular and/or antitumour activities.
结核病(TB)无处不在的威胁及其有限的治疗选择使得开发新型抗结核药物成为必要,最好是具有与现有药物不同的新作用机制。各种研究确定分枝杆菌膜蛋白大3转运体(MmpL3)是几类化合物的靶点,包括吲哚-2-羧酰胺类。在此,合理设计、合成并评估了几种吲哚酰胺类似物的抗结核和抗肿瘤活性。化合物8g对药物敏感的()H37Rv菌株表现出最高活性(MIC = 0.32 μM)。该化合物对哺乳动物细胞也表现出高选择性活性[IC(Vero细胞)= 40.9 μM,SI = 128],表明其细胞毒性极小。此外,当对接至MmpL3活性位点时,8g呈现出与吲哚酰胺配体ICA38相似的结合模式。相关化合物8f对多形性儿童胶质母细胞瘤(GBM)细胞系KNS42表现出双重抗结核(MIC = 0.62 μM)和细胞毒性活性[IC(活力)= 0.84 μM]。化合物8f对健康的Vero细胞也表现出较弱的细胞毒性活性(IC = 39.9 μM)。对结核杆菌无活性的化合物9a和15对KNS42细胞表现出强效细胞毒性(分别为IC = 8.25和5.04 μM)和抗增殖活性(分别为IC = 9.85和6.62 μM)。用化合物15处理的KNS42细胞的转录分析显示碳酸酐酶9(CA9)和脾酪氨酸激酶(SYK)基因的表达显著下调。先前已表明这些基因在GBM肿瘤中的表达水平有助于肿瘤进展,提示它们参与了我们观察到的抗肿瘤活性。选择化合物9a和15针对三种不同的儿童脑肿瘤细胞系(BT12、BT16和DAOY)和非肿瘤性人成纤维细胞HFF1进行进一步评估。化合物9a对两种测试的非典型畸胎样/横纹肌样肿瘤(AT/RT)细胞BT12和BT16表现出显著的细胞毒性(分别为IC = 0.89和1.81 μM)和抗增殖活性(分别为IC = 7.44和6.06 μM)。有趣的是,当针对非肿瘤性HFF1细胞进行测试时,化合物9a没有细胞毒性[IC(活力)= 119 μM]。这表明可以对吲哚酰胺支架进行微调,以赋予一系列具有选择性抗结核和/或抗肿瘤活性的衍生物。
