基于天然萜烯的治疗性深共晶溶剂的生物活性特性

Eduardo Silva , Filipe Oliveira , Joana M. Silva , Rui L. Reis , Ana Rita C. Duarte
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引用次数: 14

摘要

微生物相关感染的治疗仍然是一项临床挑战,近年来,由于对目前应用的治疗方案的耐药性的传播,这一挑战一直在缓慢恶化。在目前的情况下,设计新的治疗方法是非常重要的,是科学界的一个突出焦点。近年来,深共晶体系(DES)因其卓越的物理化学和生物特性、通用性和符合绿色化学指标而受到科学界的关注。本文制备了含有单萜类化合物(百里酚(THY)和薄荷醇(ME))和布洛芬(IBU)的DES,并通过热分析和核磁共振光谱对其进行了表征。然后探讨了最有希望的配方的生物活性,重点是其抗菌和抗癌活性。基于ME和thys的配方对测试的微生物组均具有相关的抗菌活性。其中THY:IBU 3:1 M的抑菌活性最高,对所有被试微生物均有效,而ME:IBU 3:1 M的比例仅对革兰氏阳性菌和白色念珠菌有效。此外,基于ME和thy的配方都显示出对所使用的癌细胞模型(HT29)的细胞毒性作用,其中ME:IBU 3:1在不影响正常细胞活力的情况下对癌细胞最有选择性。总的来说,获得的结果突出了萜烯基THEDES配方的潜在用途,由于其增强的热性能,可能代表了几种生物医学应用的多功能替代方案,其中有效的抗菌或抗癌治疗作用仍然是一个挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Untangling the bioactive properties of therapeutic deep eutectic solvents based on natural terpenes

Treatment of microbial-related infections remains a clinical challenge that has been slowly aggravating over recent years, due to the dissemination of resistance against currently applied treatment protocols. In this current scenario, the design of novel treatment approaches is of great importance, being a prominent focus of the scientific community. In recent years deep eutectic systems (DES) have gained the attention of the scientific community due to their remarkable physicochemical and biological properties, versatility, and compliance with the green chemistry metrics. In this work, DES containing a monoterpenoid (thymol (THY) and menthol (ME)) in combination with ibuprofen (IBU) were formulated and characterized via thermal analyses and NMR spectroscopy. The biological activity of the most promising formulations was then explored, with focus on its antimicrobial and anticancer activity. Both ME and THY-based formulations presented relevant antibacterial activity against the panel of microorganisms tested. Among the THY-based formulation tested, THY:IBU 3:1 M ratio, showed the highest antibacterial activity, affecting all tested microorganisms, while ME:IBU 3:1 M ratio was only effective against Gram-positive bacteria and Candida albicans. Furthermore, both ME and THY-based formulations revealed cytotoxic effect towards the cancer cell model used (HT29), where ME:IBU 3:1 stood out as the most selective towards cancer cells without compromising normal cells viability. Overall, the results obtained highlight the potential use of terpene-based THEDES formulations that, due to their enhanced thermal properties, may represent a versatile alternative in several biomedical applications where an effective antimicrobial or anticancer therapeutic action remains a challenge.

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Current research in chemical biology
Current research in chemical biology Biochemistry, Genetics and Molecular Biology (General)
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