Tackling bacterial resistance using antibiotics as ionic liquids and organic salts

Proceedings of 5th International Electronic Conference on Medicinal Chemistry Pub Date : 2019-11-12 DOI:10.3390/ecmc2019-06414

Miguel M. Santos, Inês R. Grilo, R. Ferraz, D. Madeira, Bárbara Soares, Núria Inácio, Luís Pinheiro, Ž. Petrovski, C. Prudêncio, R. Sobral, L. Branco

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Abstract

Bacterial resistance to current antibiotics has a major impact on worldwide human health, leading to 700K deaths every year. The development of novel antibiotics did not present significant progress, namely regarding clinical trials, over the last years due to low returns. Thus, innovative alternatives must be devised to tackle the continuous rise of antimicrobial resistance. Ionic Liquids and Organic Salts from Active Pharmaceutical Ingredients (API-OSILs) have risen in academia for over 10 years as an efficient formulation for drugs with low bioavailability and permeability, as well as reduction or elimination of polymorphism, thereby potentially enhancing their pharmaceutical efficiency. To the best of our knowledge, our group is the first to perform research on the development of API-OSILs from antibiotics as a way to improve their efficiency. More specifically, we have successfully combined ampicillin, penicillin and amoxicillin as anions with biocompatible organic cations such as choline, alkylpyridiniums and alkylimidazoliums. In this communication, we present our latest developments in the synthesis and physicochemical (DSC) characterization of OSILs from these antibiotics, in addition to in vitro antimicrobial activity data, in particular towards MRSA and multi-resistant E. coli, as well as sensitive strains of gram-positive and gram-negative bacteria.

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利用抗生素作为离子液体和有机盐来解决细菌耐药性

细菌对现有抗生素的耐药性对全球人类健康产生重大影响，每年导致70万人死亡。由于低回报，新型抗生素的开发在过去几年中没有取得重大进展，即在临床试验方面。因此，必须设计创新的替代方案，以解决抗菌素耐药性持续上升的问题。活性药物成分离子液体和有机盐类(API-OSILs)作为低生物利用度、低渗透性、减少或消除多态性的药物的有效制剂，在学术界兴起已有十多年。据我们所知，我们的团队是第一个研究从抗生素中开发API-OSILs以提高其效率的团队。更具体地说，我们已经成功地将氨苄西林、青霉素和阿莫西林作为阴离子与胆碱、烷基吡啶和烷基咪唑等生物相容性有机阳离子结合起来。在这篇通讯中，我们介绍了我们在这些抗生素的OSILs的合成和物理化学(DSC)表征方面的最新进展，以及体外抗菌活性数据，特别是对MRSA和多重耐药大肠杆菌，以及革兰氏阳性和革兰氏阴性细菌的敏感菌株。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 5th International Electronic Conference on Medicinal Chemistry

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