评估在脂质纳米颗粒中输送的核酸类有效载荷的广度,以确定开发过程中的根本差异。

Expert opinion on drug delivery Pub Date : 2024-10-01 Epub Date: 2024-10-16 DOI:10.1080/17425247.2024.2409142
Jinjin Li, Camilla Foged
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引用次数: 0

摘要

导言:基于核酸(NA)的疗法在下调或增强基因表达方面已显示出巨大的潜力,但要实现蛋白质替代疗法和疫苗接种等前景广阔的应用,就需要全面了解将其定向输送到特定组织或细胞的要求:在这篇综述中,我们讨论了四种具有代表性的基于 NA 的疗法(即反义寡核苷酸、小干扰 RNA、信使 RNA 和环状 RNA)的临床应用,重点是用于细胞内递送的脂质纳米粒子(LNP)技术。通过讨论 LNP 在体内的转归,加深了人们对纳米药物在全身和细胞水平的转运的理解。此外,还讨论了基于 NA 的疫苗,重点是针对抗原递呈细胞和免疫激活:基于NA的治疗药物的输送系统优化主要集中在延长全身循环和增强内体逸出的标准要求上。根据特定靶组织或细胞的最终去向,应调整策略,以实现基于NA的有效载荷的理想生物分布。考虑到货物在到达目标组织或细胞前过早释放的可能性,我们鼓励对货物和载体的药代动力学进行更多研究,因为它们在体内的命运可能不同。
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Evaluating the breadth of nucleic acid-based payloads delivered in lipid nanoparticles to establish fundamental differences in development.

Introduction: Nucleic acid (NA)-based therapeutics have shown great potential for downregulating or augmenting gene expression, and for promising applications, e.g., protein-replacement therapy and vaccination, a comprehensive understanding of the requirements for their targeted delivery to specific tissues or cells is needed.

Areas covered: In this review, we discuss clinical applications of four representative types of NA-based therapeutics, i.e. antisense oligonucleotides, small interfering RNA, messenger RNA, and circular RNA, with a focus on the lipid nanoparticle (LNP) technology used for intracellular delivery. The in vivo fate of LNPs is discussed to improve the understanding of trafficking of nanomedicines at the systemic and cellular levels. In addition, NA-based vaccines are discussed, focusing on targeting antigen-presenting cells and immune activation.

Expert opinion: Optimization of delivery systems for NA-based therapeutics is mainly focused on the standard requirements of prolonged systemic circulation and enhancing endosomal escape. Depending on the final destination in specific target tissues or cells, strategies should be adjusted to achieve the desired biodistribution of NA-based payloads. More studies relating to the pharmacokinetics of both cargo and carrier are encouraged, because their in vivo fates may differ, considering the possibility of premature cargo release before reaching the target.

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