靶向非病毒基因抑制 Gα(i/o)-介导的后左心房迷走神经信号传递可减少迷走神经诱导的心房颤动。

Targeted nonviral gene-based inhibition of Gα(i/o)-mediated vagal signaling in the posterior left atrium decreases vagal-induced atrial fibrillation.

机构信息

Feinberg Cardiovascular Research Institute, Northwestern University-Feinberg School of Medicine, Chicago, Illinois 60611, USA.

出版信息

Heart Rhythm. 2011 Nov;8(11):1722-9. doi: 10.1016/j.hrthm.2011.06.018. Epub 2011 Aug 25.

DOI:10.1016/j.hrthm.2011.06.018

PMID:21689540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3570566/

Abstract

BACKGROUND

Pharmacologic and ablative therapies for atrial fibrillation (AF) have suboptimal efficacy. Newer gene-based approaches that target specific mechanisms underlying AF are likely to be more efficacious in treating AF. Parasympathetic signaling appears to be an important contributor to AF substrate.

OBJECTIVE

The purpose of this study was to develop a nonviral gene-based strategy to selectively inhibit vagal signaling in the left atrium and thereby suppress vagal-induced AF.

METHODS

In eight dogs, plasmid DNA vectors (minigenes) expressing Gα(i) C-terminal peptide (Gα(i)ctp) was injected in the posterior left atrium either alone or in combination with minigene expressing Gα(o)ctp, followed by electroporation. In five control dogs, minigene expressing scrambled peptide (Gα(R)ctp) was injected. Vagal- and carbachol-induced left atrial effective refractory periods (ERPs), AF inducibility, and Gα(i/o)ctp expression were assessed 3 days following minigene delivery.

RESULTS

Vagal stimulation- and carbachol-induced effective refractory period shortening and AF inducibility were significantly attenuated in atria receiving a Gα(i2)ctp-expressing minigene and were nearly eliminated in atria receiving both Gα(i2)ctp- and Gα(o1)ctp-expressing minigenes.

CONCLUSION

Inhibition of both G(i) and G(o) proteins is necessary to abrogate vagal-induced AF in the left atrium and can be achieved via constitutive expression of Gα(i/o)ctps expressed by nonviral plasmid vectors delivered to the posterior left atrium.

摘要

背景

治疗心房颤动（AF）的药物和消融疗法疗效并不理想。针对 AF 潜在机制的新型基因治疗方法可能更有效地治疗 AF。迷走神经信号似乎是 AF 基质的一个重要贡献者。

目的

本研究旨在开发一种非病毒基因治疗策略，以选择性抑制左心房的迷走神经信号，从而抑制迷走神经诱导的 AF。

方法

在 8 只狗中，单独或与表达 Gα(o)ctp 的 minigene 一起注射表达 Gα(i) C 端肽（Gα(i)ctp）的质粒 DNA 载体（minigene），然后进行电穿孔。在 5 只对照狗中，注射表达 scrambled peptide（Gα(R)ctp）的 minigene。在 minigene 给药后 3 天评估迷走神经和卡巴胆碱诱导的左心房有效不应期（ERP）、AF 诱导性和 Gα(i/o)ctp 表达。

结果

接受 Gα(i2)ctp 表达 minigene 的心房，迷走神经刺激和卡巴胆碱诱导的有效不应期缩短和 AF 诱导性显著减弱，而接受 Gα(i2)ctp 和 Gα(o1)ctp 表达 minigene 的心房几乎消除了这些作用。

结论

抑制 G(i)和 G(o)蛋白两者对于消除左心房的迷走神经诱导的 AF 是必要的，这可以通过非病毒质粒载体表达的 Gα(i/o)ctps 的组成型表达来实现，该载体递送到左心房后部。

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