siRNA基因沉默（RNA干扰）：体外机体肝脏灌注保存过程中的新

StephenW

Gene Silencing With siRNA (RNA Interference): A New Therapeutic Option During Ex Vivo Machine Liver Perfusion Preservation
Max F. Thijssen
Isabel M. A. Brüggenwirth
Andrew Gillooly
Anastasia Khvorova
Timothy F. Kowalik
Paulo N. Martins
First published: 18 December 2018
https://doi.org/10.1002/lt.25383
Citations: 7
Paulo N. Martins is supported by a UMass Faculty Development Grant and American Association for the Study of Liver Diseases Career in Transplantation Grant.
Anastasia Khvorova consults for Advinc and has intellectual property rights with UMass. Timothy F. Kowalik has stock ownership or equity of more than $10,000 with TATT, LLC, and has intellectual property rights with Moderna and AbViro.
Sections
PDFPDF
Tools
Share
Abstract

RNA interference (RNAi) is a natural process of posttranscriptional gene regulation that has raised a lot of attention culminating with the Nobel Prize in Medicine in 2006. RNAi‐based therapeutics have been tested in experimental transplantation to reduce ischemia/reperfusion injury (IRI) with success. Modulation of genes of the innate immune system, as well as apoptotic genes, and those involved in the nuclear factor kappa B pathways can reduce liver injury in rodent liver pedicle clamping and transplantation models of IRI. However, in vivo use of RNAi faces limitations regarding the method of administration, uptake, selectivity, and stability. Machine perfusion preservation, a more recent alternative approach for liver preservation showing superior results to static cold preservation, could be used as a platform for gene interference therapeutics. Our group was the first to demonstrate uptake of small interfering RNA (siRNA) during liver machine preservation under both normothermic and hypothermic perfusion. Administering siRNA in the perfusion solution during ex vivo machine preservation has several advantages, including more efficient delivery, lower doses and cost‐saving, and none/fewer side effects to other organs. Recently, the first RNAi drug was approved by the US Food and Drug Administration for clinical use, opening a new avenue for new drugs with different clinical applications. RNAi has the potential to have transformational therapeutic applications in several areas of medicine including transplantation. We believe that machine preservation offers great potential to be the ideal delivery method of siRNA to the liver graft, and future studies should be initiated to improve the clinical applicability of RNAi in solid organ transplantation.

StephenW

siRNA基因沉默（RNA干扰）：体外机体肝脏灌注保存过程中的新治疗选择
麦克斯·蒂森
伊莎贝尔·A·布吕根维斯
安德鲁·吉卢里（Andrew Gillooly）
阿纳斯塔西娅·赫沃罗娃（Anastasia Khvorova）
蒂莫西·科瓦里克（Timothy F.Kowalik）
保罗·马丁斯
首次发布：2018年12月18日
https://doi.org/10.1002/lt.25383
引文：7
保罗·马丁斯（Paulo N. Martins）得到了麻省大学医学院教师发展补助金和美国肝病职业移植研究协会的资助。
阿纳斯塔西娅·赫沃罗娃（Anastasia Khvorova）为Advinc咨询，并在UMass拥有知识产权。 Timothy F. Kowalik在TATT，LLC中拥有超过10,000美元的股权，并在Moderna和AbViro中拥有知识产权。
栏目
PDF格式
工具类
分享
抽象

RNA干扰（RNAi）是转录后基因调控的自然过程，引起了广泛关注，并在2006年获得了诺贝尔医学奖。基于RNAi的疗法已经在实验性移植中经过测试，可以减少缺血/再灌注损伤（IRI）。成功。调节先天免疫系统的基因以及凋亡基因，以及参与核因子κB通路的基因，可以减少IRI啮齿动物肝蒂钳夹和移植模型中的肝损伤。但是，RNAi的体内使用在给药方法，摄取，选择性和稳定性方面面临局限性。机器灌注保存是一种较之静态冷保存效果更好的肝保存替代方法，可以用作基因干扰治疗的平台。我们的研究小组是第一个在常温灌注和低温灌注下在肝机器保存过程中摄取小分子干扰RNA（siRNA）的人。在离体机器保存过程中在灌注溶液中使用siRNA具有多个优点，包括更高效的递送，更低的剂量和节省成本，并且对其他器官的副作用很小。最近，第一种RNAi药物被美国食品和药物管理局批准用于临床，为具有不同临床应用的新药物开辟了新途径。 RNAi在包括移植在内的多个医学领域具有转化治疗应用的潜力。我们认为，机器保存具有巨大的潜力，有望成为siRNA理想的肝移植方法，因此，应开展进一步的研究以提高RNAi在实体器官移植中的临床应用性。

StephenW

https://aasldpubs.onlinelibrary. ... ll/10.1002/lt.25383

齐欢畅