Bridging the Gap With Clinical Pharmacology in Innovative Rare Disease Treatment Modalities: Targeting DNA to RNA to Protein.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-12-01 DOI:10.1002/jcph.2172
Lucy Lee, Rakesh Gollen, Anas M Fathallah, Lan Gao, Shivakumar Patil
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引用次数: 1

Abstract

Rare diseases are frequently caused by inherited 'monogenic' defects. Treatment interventions that target a specific genetic location or that replaces a specific protein provide rational therapeutic approaches. The current review discusses innovative targeted therapies that act or modulate at the level of DNA, RNA, or protein. They include DNA gene editing, small interference RNA (siRNA), antisense oligonucleotide (ASO), small molecule RNA splicing modifier, and bispecific antibody. With limited numbers of patients, testing multiple dose levels and regimens prior to making an informed dose decision remains one of the major challenges in rare disease drug development. Clinical pharmacology strategically bridges the gap to support drug development and regulatory approvals. Pharmacokinetic drug exposures are driven by absorption, distribution, metabolism, elimination, and in some cases immunogenicity. Drug responses are measured by pharmacodynamic biomarkers that are linked to either short- or long-term clinical outcomes. Understanding the drug exposure-response relationship lies at the heart of bridging the gap that enables a dose decision by balancing effectiveness and safety. Furthermore, and importantly, understanding the influence of intrinsic and extrinsic factors on drug pharmacokinetics enables dose adjustment decisions based on drug exposures. Case examples include the identification of doses and regimens without a formal dose-finding study, the support of new doses and regimens without conducting additional studies, and the extrapolation of adult drug-drug interaction (DDI) studies to pediatrics without performing a pediatric DDI study. With increasing discoveries of innovative treatment modalities, the responsibility of clinical pharmacologists is expected to grow and enhance the development of novel treatments for rare diseases.

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在创新的罕见病治疗模式中弥合与临床药理学的差距:靶向DNA到RNA到蛋白质。
罕见病通常是由遗传的“单基因”缺陷引起的。针对特定基因位置或替代特定蛋白质的治疗干预措施提供了合理的治疗方法。当前的综述讨论了在DNA, RNA或蛋白质水平上起作用或调节的创新靶向治疗。它们包括DNA基因编辑、小干扰RNA (siRNA)、反义寡核苷酸(ASO)、小分子RNA剪接修饰剂和双特异性抗体。由于患者数量有限,在做出知情剂量决定之前测试多种剂量水平和方案仍然是罕见病药物开发的主要挑战之一。临床药理学在战略上弥补了差距,以支持药物开发和监管批准。药代动力学药物暴露受吸收、分布、代谢、消除和某些情况下的免疫原性驱动。药物反应是通过与短期或长期临床结果相关的药效学生物标志物来测量的。理解药物暴露-反应关系是弥合差距的核心,从而通过平衡有效性和安全性来决定剂量。此外,重要的是,了解内在和外在因素对药物药代动力学的影响,可以根据药物暴露做出剂量调整决策。案例包括在没有进行正式剂量发现研究的情况下确定剂量和方案,在没有进行额外研究的情况下支持新剂量和方案,以及在没有进行儿科DDI研究的情况下将成人药物-药物相互作用(DDI)研究外推到儿科。随着越来越多的创新治疗方式的发现,临床药理学家的责任被期望增长,并加强罕见疾病的新治疗方法的发展。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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