为患病心脏组织提供RNA疗法的策略。

IF 5.4

Expert opinion on drug delivery Pub Date : 2025-10-01 Epub Date: 2025-07-31 DOI:10.1080/17425247.2025.2539960

Letizia Nicoletti, Martina Coletto, Giovanni Paolo Stola, Camilla Paoletti, Elena Marcello, Daniele Testore, Francesca Tivano, Alice Zoso, Clara Mattu, Valeria Chiono

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引用次数: 0

摘要

导言：心血管疾病（cvd）占全球死亡率的三分之一。RNA疗法已成为有前途的工具，以调节基因表达和分子途径在心血管疾病。然而，它们的临床翻译受到不稳定性、免疫原性和跨解剖和生理障碍的低效递送的阻碍。涵盖领域：本综述批判性地研究了靶向递送RNA治疗药物到心脏的新兴策略，批判性地分析了系统和局部障碍。重点放在RNA分子的化学修饰，包封，仿生和靶向方法，以增强组织和细胞靶向。该分析得到了包含临床前和转化研究的结构化文献检索的支持。强调了RNA递送的临床翻译面临的挑战。从PubMed， Web-of-Science和clinicaltrials .gov检索了2008年至2024年间发表的研究和评论文章以及临床试验。专家意见：局部递送系统对于改善RNA通过细胞外基质（ECM）的保留和扩散至关重要，而针对心肌细胞和成纤维细胞的细胞类型特异性策略可以提高异质心脏微环境（CME）的准确性。这些方法代表了合理设计RNA疗法的基础，以克服生物屏障，实现有效的靶向递送到心脏组织。

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Strategies for the delivery of RNA therapeutics to diseased heart tissue.

Introduction: Cardiovascular diseases (CVDs) account for one-third of the global mortality rate. RNA therapeutics have emerged as a promising tool to modulate gene expression and molecular pathways in CVDs. However, their clinical translation is hampered by instability, immunogenicity, and inefficient delivery across anatomical and physiological barriers.

Areas covered: This review critically examines emerging strategies for the targeted delivery of RNA therapeutics to the heart, critically analyzing systemic and local barriers. Emphasis is placed on chemical modifications of RNA molecules, encapsulation, biomimetic, and targeted approaches to enhance tissue and cellular targeting. The analysis is supported by a structured literature search encompassing preclinical and translational studies. Challenges to the clinical translation of RNA delivery are highlighted. Research and review articles, as well as clinical trials published between 2008 and 2024 were searched from PubMed, Web-of-Science, and ClinicalTrials.gov.

Expert opinion: Local delivery systems are crucial to improve RNA retention and diffusion through the extracellular matrix (ECM), while cell-type - specific strategies targeting cardiomyocytes and fibroblasts can enhance precision within a heterogeneous cardiac microenvironment (CME). These approaches represent a fundamental basis for the rational design of RNA therapeutics to overcome biological barriers and enable efficient, targeted delivery to cardiac tissue.

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Expert opinion on drug delivery

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