Tuning pH-dependent cytotoxicity in cancer cells by peripheral fluorine substitution on pseudopeptidic cages

IF 7.9 2区 综合性期刊 Q1 CHEMISTRY, MULTIDISCIPLINARY
Lucía Tapia, Yolanda Pérez, Israel Carreira-Barral, Jordi Bujons, Michael Bolte, Carmen Bedia, Jordi Solà, Roberto Quesada, Ignacio Alfonso
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Abstract

The acidic microenvironment of solid tumors is a potential source of selectivity in the anti-cancer activity of ionophores, which requires delicate control of their biophysical properties. In this context, we have systematically studied fluorine substitutions in the aromatic side chains of HCl-binding pseudopeptidic cages. Interconnected factors like chloride binding, protonation, lipophilicity, and conformation and diffusiveness of the cages can impact their ability to transport HCl through the aqueous-lipid interphase, as demonstrated by robust experimental (X-ray, nuclear magnetic resonance [NMR], fluorescence) and theoretical results. The fine-tuning of these properties allows the modulation of their pH-dependent cytotoxicity against cancer cells, from essentially non-cytotoxic at pH 7.5 (like the extracellular surroundings of healthy tissues) to highly toxic in slightly acidic microenvironments (like those around solid tumors). Thus, a distal fluorine substitution produces a big impact on the physicochemical and biological properties of the cages, improving their selectivity as potential therapeutic ionophores.

Abstract Image

通过伪肽笼上的外围氟替代物调节癌细胞的 pH 依赖性细胞毒性
实体瘤的酸性微环境是离子源抗癌活性选择性的潜在来源,这需要对其生物物理特性进行精细控制。在此背景下,我们系统地研究了盐酸结合伪肽笼芳香侧链中的氟取代。正如可靠的实验(X 射线、核磁共振 [NMR]、荧光)和理论结果所证明的那样,笼子的氯化物结合、质子化、亲油性、构象和扩散性等相互关联的因素会影响它们通过水-脂质间质转运 HCl 的能力。通过对这些特性进行微调,可以调节它们对癌细胞的 pH 值依赖性细胞毒性,从 pH 值为 7.5 时的无毒性(如健康组织的细胞外环境)到微酸性微环境中的高毒性(如实体瘤周围环境)。因此,远端氟取代对笼子的物理化学和生物特性产生了很大影响,提高了它们作为潜在治疗离子源的选择性。
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来源期刊
Cell Reports Physical Science
Cell Reports Physical Science Energy-Energy (all)
CiteScore
11.40
自引率
2.20%
发文量
388
审稿时长
62 days
期刊介绍: Cell Reports Physical Science, a premium open-access journal from Cell Press, features high-quality, cutting-edge research spanning the physical sciences. It serves as an open forum fostering collaboration among physical scientists while championing open science principles. Published works must signify significant advancements in fundamental insight or technological applications within fields such as chemistry, physics, materials science, energy science, engineering, and related interdisciplinary studies. In addition to longer articles, the journal considers impactful short-form reports and short reviews covering recent literature in emerging fields. Continually adapting to the evolving open science landscape, the journal reviews its policies to align with community consensus and best practices.
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