利用药物筛选粘膜综合平台释放囊性纤维化的 AhR 治疗潜力

IF 3.7 4区 医学 Q2 PHARMACOLOGY & PHARMACY
Lorenzo Sardelli, Enrica Frasca, Valentina Olga Garbero, Cosmin Butnarasu, Alex Affricano, Claudio Medana, Sonja Visentin
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引用次数: 0

摘要

细菌衍生分子是细菌与细菌、细菌与宿主交流的基础。在囊性纤维化(CF)方面,它们被认为是可能的治疗分子,因为它们具有与免疫调节细胞质芳基烃受体(AhR)天然结合的能力。被鉴定为 AhR 激活剂的细菌衍生分子数量呈指数级增长,这凸显了对筛选可能的候选先导分子系统的需求。为了应对这一挑战,我们采用了一种体外工具,模拟潜在的 AhR 靶向药物必须克服的两个主要障碍:细胞质膜和 CF 病理粘液。我们选择了一小部分具有潜在治疗用途的 AhR 配体。对细菌衍生分子穿过细胞膜模型的表观渗透性进行了量化,并确定了能够到达细胞质靶点(AhR)的分子。第二步,将 CF 体外粘液模型与磷脂膜整合,评估粘液对渗透性的影响。总之,本研究提出了一种综合粘膜平台,作为一种新兴的后生化药物治疗 CF 领域的合适工具。该粘膜平台可在候选药物代表中快速鉴定出符合细胞质靶向 AhR 的分子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unlocking the AhR Therapeutic Potential for Cystic Fibrosis With an Integrated Mucosal Platform for Drug Screening

Unlocking the AhR Therapeutic Potential for Cystic Fibrosis With an Integrated Mucosal Platform for Drug Screening

Unlocking the AhR Therapeutic Potential for Cystic Fibrosis With an Integrated Mucosal Platform for Drug Screening

Bacterial-derived molecules are at the basis of bacteria–bacteria and bacteria–host communication. In the context of cystic fibrosis (CF), they are considered possible therapeutic molecules for their natural binding capability on the immunomodulatory cytoplasmic aryl hydrocarbon receptor (AhR). An exponentially growing number of bacteria-derived molecules are identified as AhR activators, highlighting the need for systems to screen possible lead candidates. This challenge is addressed by applying an in vitro tool mimicking the two main barriers that potential AhR-targeting drugs must overcome: the cytoplasmic membrane and the CF pathological mucus. A small dataset of AhR ligands with potential therapeutic applications is selected. The apparent permeability of bacterial-derived molecules across a cellular membrane model is quantified and molecules capable of reaching the cytoplasmic target (AhR) are identified. In a second step, a CF in vitro mucus model is integrated with the phospholipid membrane and the impact of mucus on permeability is assessed. Overall, this study proposes an integrated mucosal platform as a suitable tool in the emerging field of postbiotics as a therapeutic strategy for CF. The mucosal platform can enable the rapid identification of molecules compatible with cytoplasmic targeting of AhR among candidate-drug representatives.

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来源期刊
Advanced Therapeutics
Advanced Therapeutics Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
7.10
自引率
2.20%
发文量
130
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