Extracellular Vesicle–Mediated Delivery of Circular RNA SCMH1 Promotes Functional Recovery in Rodent and Nonhuman Primate Ischemic Stroke Models-Reference-Cited by-同舟云学术

Extracellular Vesicle–Mediated Delivery of Circular RNA SCMH1 Promotes Functional Recovery in Rodent and Nonhuman Primate Ischemic Stroke Models

Published:2020-08-11 Issue:6 Volume:142 Page:556-574
ISSN:0009-7322
Container-title:Circulation
language:en
Short-container-title:Circulation

Author:

Yang Li¹,Han Bing¹,Zhang Zhiting²³⁴,Wang Shuguo⁵,Bai Ying¹,Zhang Yuan¹,Tang Ying¹,Du Lingli²,Xu Ling²,Wu Fangfang¹,Zuo Lei⁶,Chen Xufeng⁷,Lin Yu²,Liu Kezhong²,Ye Qingqing¹,Chen Biling¹,Li Bin¹,Tang Tianci¹,Wang Yu¹,Shen Ling¹,Wang Guangtian¹,Ju Minzi¹,Yuan Mengqin⁸,Jiang Wei⁸,Zhang John H.³⁹,Hu Gang¹⁰,Wang Jianhong²¹¹¹²¹³,Yao Honghong¹¹⁴¹⁵

Affiliation:

1. Department of Pharmacology, School of Medicine (L.Y., B.H., Y.B., Y.Z., Y.T., F.W., Q.Y., B.C., B.L., T.T., Y.W., L.S., G.W., M.J., H.Y.), Southeast University, Nanjing, China.

2. National Research Facility for Phenotypic & Genetic Analysis of Model Animals (Primate Facility) (Z.Z., L.D., L.X., Y.L., K.L., J.W.), Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.

3. Institutes of Physical Science and Information Technology, Anhui University, Hefei, China (Z.Z., K.L.).

4. State Key Laboratory of Bioactive Substances and Functions of Natural Medicines, Institute of Materia Medica & Neuroscience Center, Chinese Academy of Medical Sciences and Peking Union Medical College, Beijing, China (Z.Z.).

5. Department of Neurosurgery, First Affiliation Hospital of Kunming Medical University, Kunming, China (S.W.)

6. Department of Neurology of Affiliated ZhongDa Hospital, Institute of Neuropsychiatry of Southeast University (L.Z.), Southeast University, Nanjing, China.

7. Emergency Department, Jiangsu Province Hospital and Nanjing Medical University First Affiliated Hospital, Nanjing, China (X.C.).

8. College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, China (M.Y., W.J.).

9. Department of Physiology, School of Medicine, Loma Linda University, Loma Linda, CA (J.H.Z.).

10. Jiangsu Key Laboratory of Neurodegeneration, Department of Pharmacology, Nanjing Medical University, Nanjing, China (G.H.).

11. National Resource Center for Non-Human Primates (Kunming Primate Research Center) (J.W.), Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.

12. Key Laboratory of Animal Models and Human Disease Mechanisms of the Chinese Academy of Science & Yunnan Province, (J.W.), Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.

13. KIZ-CUHK Joint Laboratory of Bioresources and Molecular Research in Common Diseases (J.W.), Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.

14. Institute of Life Sciences, Key Laboratory of Developmental Genes and Human Disease (H.Y.), Southeast University, Nanjing, China.

15. Co-innovation Center of Neuroregeneration, Nantong University, Nantong, China (H.Y.).

Abstract

Background: Stroke is a leading cause of adult disability that can severely compromise the quality of life of patients, yet no effective medication currently exists to accelerate rehabilitation. A variety of circular RNA (circRNA) molecules are known to function in ischemic brain injury. Lentivirus-based expression systems have been widely used in basic studies of circRNAs, but safety issues with such delivery systems have limited exploration of the potential therapeutic roles for circRNAs. Methods: Circular RNA SCMH1 (circSCMH1) was screened from the plasma of patients with acute ischemic stroke by using circRNA microarrays. Engineered rabies virus glycoprotein-circSCMH1-extracellular vesicles were generated to selectively deliver circSCMH1 to the brain. Nissl staining was used to examine infarct size. Behavioral tasks were performed to evaluate motor functions in both rodent and nonhuman primate ischemic stroke models. Golgi staining and immunostaining were used to examine neuroplasticity and glial activation. Proteomic assays and RNA-sequencing data combined with transcriptional profiling were used to identify downstream targets of circSCMH1. Results: CircSCMH1 levels were significantly decreased in the plasma of patients with acute ischemic stroke, offering significant power in predicting stroke outcomes. The decreased levels of circSCMH1 were further confirmed in the plasma and peri-infarct cortex of photothrombotic stroke mice. Beyond demonstrating proof-of-concept for an RNA drug delivery technology, we observed that circSCMH1 treatment improved functional recovery after stroke in both mice and monkeys, and we discovered that circSCMH1 enhanced the neuronal plasticity and inhibited glial activation and peripheral immune cell infiltration. CircSCMH1 binds mechanistically to the transcription factor MeCP2 (methyl-CpG binding protein 2), thereby releasing repression of MeCP2 target gene transcription. Conclusions: Rabies virus glycoprotein-circSCMH1-extracellular vesicles afford protection by promoting functional recovery in the rodent and the nonhuman primate ischemic stroke models. Our study presents a potentially widely applicable nucleotide drug delivery technology and demonstrates the basic mechanism of how circRNAs can be therapeutically exploited to improve poststroke outcomes.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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