Synthetic strategies towards bioactive nature-inspired indole-containing alkaloids

Proceedings of 5th International Electronic Conference on Medicinal Chemistry Pub Date : 2019-10-30 DOI:10.3390/ecmc2019-06291

S. Long, D. Resende, P. Pereira-Terra, Joana Freitas-Silva, Artur M. S. Silva, M. Tiritan, A. Kijjoa, E. Pinto, Paulo M. Costa, M. Pinto, E. Sousa

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Abstract

Currently drug resistance is rising to dangerously high levels worldwide and threatening our ability to treat even common infectious diseases. Secondary metabolites, especially alkaloids containing an indole group and structurally related to fumiquinazolines, are of crucial importance in the area of drug discovery, having representatives such as fiscalin B that was reported as substance P antagonist and neofiscalin A, a potent antibacterial agent active in both reference and multidrug-resistant isolates. [1] Herein, the synthesis of quinazolinone alkaloid derivatives containing an indole moiety is reported, using two different methodologies – a highly efficient three-component one-pot microwave-assisted and a multi-step Mazurkiewicz-Ganesan approach. With this approach, 38 derivatives were obtained in low to moderate yields and were further tested for their antitumor [2,3], neuroprotection [2], antibacterial, and antifungal activities. While 16 compounds exhibited weak to moderate tumor cell growth inhibitory activity, other four compounds showed potential for in vitro neuroprotection in Parkinson disease. It was also observed for some derivatives a good antibacterial activity against clinical Staphylococcus aureus resistant to methicillin (MRSA). Structure-activity relationship was established and four hit compounds containing the quinazolinone scaffold emerged as potential drug candidates. Acknowledgements: We thank the UID/Multi/04423/2019 through national funds provided by FCT-Foundation for Science and Technology and European Regional Development Fund (ERDF), in the framework of the program PT2020. This research was developed under Project No. POCI-01-0145-FEDER-028736, co-financed by COMPETE 2020, Portugal 2020 and the European Union through the ERDF, and by FCT through national funds, and Solida Long thanks Erasmus-Lotus+ program (LOTUS+, LP15DF0205). References: [1] Resende, D. I. S. P.; Boonpothong, P.; Sousa, E.; Kijjoa, A.; Pinto, M. M. M., Chemistry of the fumiquinazolines and structurally related alkaloids. Natural Product Reports 2019, 36, 7-34. [2] Long, S.; Resende, D. I. S. P.; Kijjoa, A.; Silva, A. M. S.; Fernandes, R.; Xavier, C. P. R.; Vasconcelos, M. H.; Sousa, E.; Pinto, M. M. M., Synthesis of New Proteomimetic Quinazolinone Alkaloids and Evaluation of Their Neuroprotective and Antitumor Effects. Molecules 2019, 24 (3), 534. [3] Long, S.; Resende, D.; Kijjoa, A.; Silva, A.; Pina, A.; Fernandez-Marcelo, T.; Vasconcelos, M.; Sousa, E.; Pinto, M., Antitumor Activity of Quinazolinone Alkaloids Inspired by Marine Natural Products. Mar. Drugs 2018, 16 (8), 261.

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具有生物活性的天然吲哚类生物碱的合成策略

目前，全世界的耐药性正在上升到危险的高度，甚至威胁到我们治疗常见传染病的能力。次级代谢物，特别是含有吲哚基团的生物碱，在结构上与富米喹唑啉相关，在药物发现领域具有至关重要的意义，例如被报道为P物质拮抗剂的财政calin B和新财政calin A，一种有效的抗菌剂，在参比和多重耐药菌株中都有活性。本文报道了用两种不同的方法合成含有吲哚部分的喹唑啉酮类生物碱衍生物的方法，一种是高效的三组分一锅微波辅助方法，另一种是多步骤Mazurkiewicz-Ganesan方法。通过这种方法，以中低产量获得了38个衍生物，并进一步测试了它们的抗肿瘤[2,3]、神经保护[2]、抗菌和抗真菌活性。虽然16种化合物表现出弱至中度的肿瘤细胞生长抑制活性，但其他4种化合物显示出对帕金森病的体外神经保护潜力。一些衍生物对临床耐甲氧西林金黄色葡萄球菌(MRSA)具有良好的抗菌活性。建立了结构-活性关系，发现含有喹唑啉酮支架的4个hit化合物是潜在的候选药物。感谢UID/Multi/04423/2019通过fct科学技术基金会和欧洲区域发展基金(ERDF)在PT2020计划框架内提供的国家资金。这项研究是在项目编号。poci -01-0145-联邦-028736，由compe2020、葡萄牙2020和欧盟通过ERDF共同资助，FCT通过国家基金共同资助，Solida Long感谢Erasmus-Lotus+项目(LOTUS+， LP15DF0205)。参考文献:[1]Resende, d.i.s.p.;Boonpothong p;苏萨,大肠;Kijjoa, a;平托，M. M. M. M.，富米喹唑啉和结构相关生物碱的化学。天然产品报告2019,36,7-34。[2] Long, s;雷森德，d.i.s.p.;Kijjoa, a;席尔瓦，m.s.;费尔南德斯,r;泽维尔，c.p.r.;瓦斯孔塞洛斯，m.h.;苏萨,大肠;Pinto, M. M. M. M.，新型蛋白质组态喹唑啉酮生物碱的合成及其神经保护和抗肿瘤作用的评价。生物医学工程学报，2019,24(3)，534。[3] Long, s;这里,d;Kijjoa, a;席尔瓦,a;碧娜,a;Fernandez-Marcelo t;塞·伐斯冈萨雷斯,他m;苏萨,大肠;Pinto, M.，《受海洋天然产物启发的喹唑啉酮生物碱的抗肿瘤活性》。中国医药杂志，2018,16(8)，261。

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Proceedings of 5th International Electronic Conference on Medicinal Chemistry

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