Targeted nanoparticle delivery of PNA anti-miRs to quiesce inflamed endothelium

PNA 抗 miR 的靶向纳米颗粒递送可平息发炎的内皮细胞

• 批准号: 9404511
• 负责人: Gregory T Tietjen
• 金额: $ 0.03万
• 依托单位: YALE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2016
• 资助国家: 美国
• 起止时间: 2016-04-01 至 2017-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9404511
• 关键词: Acute; Animal Model; Antibodies; Avidity; Biodistribution; Cardiovascular Diseases; Cell Adhesion Molecules; Cells; Chronic; Cues; Development; Disease model; Drug Kinetics; Dyes; E-Selectin; Encapsulated; Endothelial Cells; Endothelium; Ensure; Formulation; Human; In Vitro; Inflammation; Inflammatory; MicroRNAs; Modeling; Molecular Target; Mus; Pathologic; Peptide Nucleic Acids; Pharmaceutical Preparations; Physiological; Play; Polymers; Property; Recombinants; Research; Role; Route; Site; Skin; Specificity; Speed; Surface; TNF gene; Testing; Therapeutic; Translations; Treatment Efficacy; antibody conjugate; base; chemical conjugate; controlled release; density; effective therapy; endothelial dysfunction; experimental study; human tissue; humanized mouse; in vivo; in vivo Model; memory CD4 T lymphocyte; mouse model; nanoparticle; nanoscale; particle; public health relevance; response; shear stress; targeted delivery; therapy design; therapy development; tool; vascular inflammation

 DESCRIPTION (provided by applicant): Endothelial inflammation is now appreciated to be a significant contributing factor in many forms of cardiovascular disease and has become the focal point of many developing therapies. Several microRNAs (miRNAs) have been identified as playing key regulatory roles in the response of human endothelium to pro- inflammatory cues, suggesting that anti-sense therapies designed to inhibit the activity of these miRNAs may be a viable therapeutic approach. Indeed, recent studies in animal models have demonstrated proof of principle that inhibition of pro-inflammatory miRNAs, such as miR-92a, can be an effective strategy for resolving endothelial inflammation. In spite of the promise these studies provide, there exist major impediments to the translation of anti-miRNA agents from animal models to therapies capable of reversing chronic inflammation in human cardiovascular disease. Most notably, the pharmacokinetic properties and biodistribution of systemically administered anti-miRNA agents are quite poor. One solution to these issues is packaging the anti- miRNA molecules within nanoscale delivery vehicles that are capable of ensuring that the drugs are routed to and maintained within the inflamed vasculature. In this proposal we aim to develop a polymeric nanoparticle delivery platform capable of delivering sustained levels of a peptide-nucleic-acid based anti-miR-92a agent. The nanoparticles will be molecularly targeted to sites of inflammation via conjugation of antibodies to E- selectin, an adhesion molecule upregulated on certain inflamed endothelium. In order to help bridge the gap from animal models to a realized human therapy, we will employ humanized mice models allowing us to target and treat inflamed human vasculature within an in vivo setting. If successful, these experiments will hasten the development of safe and effective anti-miRNA therapies for resolving the inflammation underlying many cardiovascular diseases.

 描述（由申请人提供）：内皮炎症现在被认为是许多形式的心血管疾病的重要促成因素，并已成为许多开发治疗的焦点。几种微小RNA（miRNAs）已被鉴定为在人内皮对促炎信号的应答中起关键调节作用，这表明设计用于抑制这些miRNAs活性的反义疗法可能是可行的治疗方法。事实上，最近在动物模型中的研究已经证明了抑制促炎性miRNA（如miR-92 a）可以是解决内皮炎症的有效策略的原理证据。尽管这些研究提供了希望，但是将抗miRNA剂从动物模型转化为能够逆转人类心血管疾病中的慢性炎症的疗法存在主要障碍。最值得注意的是，全身施用的抗miRNA剂的药代动力学性质和生物分布相当差。这些问题的一个解决方案是将抗miRNA分子包装在纳米级递送载体内，所述纳米级递送载体能够确保药物被路由到发炎的脉管系统并维持在发炎的脉管系统内。在该提案中，我们的目标是开发能够递送持续水平的基于肽-核酸的抗miR-92 a剂的聚合物纳米颗粒递送平台。纳米颗粒将通过抗体与E-选择素的偶联而分子靶向炎症部位，E-选择素是一种在某些发炎内皮上上调的粘附分子。为了帮助弥合从动物模型到实现人类治疗的差距，我们将采用人源化小鼠模型，使我们能够在体内环境中靶向和治疗发炎的人类脉管系统。如果成功，这些实验将加速开发安全有效的抗miRNA疗法，以解决许多心血管疾病的炎症。