Hearing loss drug discovery and medicinal chemistry: Current status, challenges, and opportunities.

Q1 Pharmacology, Toxicology and Pharmaceutics Progress in medicinal chemistry Pub Date : 2022-01-01 Epub Date: 2022-06-07 DOI:10.1016/bs.pmch.2022.05.001
Rick Cousins
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引用次数: 3

Abstract

Hearing loss is a severe high unmet need condition affecting more than 1.5 billion people globally. There are no licensed medicines for the prevention, treatment or restoration of hearing. Prosthetic devices, such as hearing aids and cochlear implants, do not restore natural hearing and users struggle with speech in the presence of background noise. Hearing loss drug discovery is immature, and small molecule approaches include repurposing existing drugs, combination therapeutics, late-stage discovery optimisation of known chemotypes for identified molecular targets of interest, phenotypic tissue screening and high-throughput cell-based screening. Hearing loss drug discovery requires the integration of specialist therapeutic area biology and otology clinical expertise. Small molecule drug discovery projects in the global clinical portfolio for hearing loss are here collated and reviewed. An overview is provided of human hearing, inner ear anatomy, inner ear delivery, types of hearing loss and hearing measurement. Small molecule experimental drugs in clinical development for hearing loss are reviewed, including their underpinning biology, discovery strategy and activities, medicinal chemistry, calculated physicochemical properties, pharmacokinetics and clinical trial status. SwissADME BOILED-Egg permeability modelling is applied to the molecules reviewed, and these results are considered. Non-small molecule hearing loss assets in clinical development are briefly noted in this review. Future opportunities in hearing loss drug discovery for human genomics and targeted protein degradation are highlighted.

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听力损失药物的发现和药物化学:现状、挑战和机遇。
听力损失是一种严重的未满足需求状况,影响着全球超过15亿人。目前还没有获得许可的预防、治疗或恢复听力的药物。助听器和人工耳蜗等假肢设备不能恢复自然听力,使用者在背景噪音存在的情况下难以说话。听力损失药物的发现尚不成熟,小分子方法包括重新利用现有药物、联合治疗、对已知化学型进行后期发现优化以确定感兴趣的分子靶点、表型组织筛选和高通量细胞筛选。听力损失药物的发现需要专家治疗领域生物学和耳科临床专业知识的整合。本文对全球听力损失临床组合中的小分子药物发现项目进行了整理和回顾。概述了人类听力,内耳解剖,内耳输送,听力损失的类型和听力测量。综述了听力损失小分子实验药物的基础生物学、发现策略和活性、药物化学、计算理化性质、药代动力学和临床试验状况。SwissADME煮鸡蛋渗透率模型应用于分子审查,并考虑这些结果。本文简要介绍了非小分子听力损失在临床开发中的应用。强调了人类基因组学和靶向蛋白质降解在听力损失药物发现方面的未来机会。
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来源期刊
Progress in medicinal chemistry
Progress in medicinal chemistry Pharmacology, Toxicology and Pharmaceutics-Pharmacology
CiteScore
15.60
自引率
0.00%
发文量
6
期刊介绍: This series has a long established reputation for excellent coverage of almost every facet of Medicinal Chemistry and is one of the most respected and instructive sources of information on the subject. The latest volume certifies to the continuing success of a unique series reflecting current progress in a broadly developing field of science.
期刊最新文献
Another decade of antimalarial drug discovery: New targets, tools and molecules. Harnessing conformational drivers in drug design. To homeostasis and beyond! Recent advances in the medicinal chemistry of heterobifunctional derivatives. Antibody drug conjugates beyond cytotoxic payloads. Biophysical screening and characterisation in medicinal chemistry.
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