Modeling infection and antiviral therapy of enteric viruses using primary intestinal organoids Yuebang Yin The studies presented in this thesis were performed at the Laboratory of Gastroenterology and Hepatology, Erasmus MC-University Medical Center Rotterdam, the Netherlands. The research was funded by: Netherlands Organization for Scientific Research (NWO); Dutch Digestive Foundation (MLDS); Daniel den Hoed Foundation. Financial support for printing of this thesis was provided by: Erasmus Postgraduate School Molecular Medicine © Copyright by Yuebang Yin. All rights reserved. No part of the thesis may be reproduced or transmitted, in any form, by any means, without express written permission of the author. Cover design and layout: Yuebang Yin Printed by: RIDDERPRINT ISBN: 978-94-6299-622-9 Modeling infection and antiviral therapy of enteric viruses using primary intestinal organoids Modeleren van infectie en antivirale therapie van enterische virussen met primaire intestinale organoiden Thesis to obtain the degree of Doctor from the Erasmus University Rotterdam by command of the rector magnificus Prof.dr. H.A.P. Pols and in accordance with the decision of the Doctorate Board The public defense shall be held on Tuesday 27th June 2017 at 11:30 AM by Yuebang Yin born in Shangqiu City, Henan province, China Doctoral Committee Promoter: Prof.dr. M. P. Peppelenbosch Inner Committee: Prof.dr. C.J. van der Woude Prof.dr. J.C.H. Hardwick Dr. M. Spaargaren Copromoter: Dr. Q. Pan Cover: The picture on the cover is designed by the author based on an image in the thesis. Table of Contents Chapter 1 General introduction and outline of the thesis 1 Chapter 2 Rotavirus in organ transplantation: drug-virus-host interactions 19 Chapter 3 Modeling rotavirus infection and antiviral therapy using primary intestinal organoids 39 Chapter 4 Mycophenolic Acid Potently Inhibits Rotavirus Infection with a High Barrier to Resistance Development 71 Chapter 5 6-thioguanine potently inhibits rotavirus infection through suppression of Rac1 activation 99 Chapter 6 PI3K-Akt-mTOR-4E-BP1 axis sustains rotavirus infection via the 4E-BP1 mediated autophagy pathway and represents an antiviral target 127 Chapter 7 The eukaryotic translation initiation factor 4F complex inhibits rotavirus infection 167 Chapter 8 Inhibition of calcineurin or IMPDH exerts moderate to potent antiviral activity against norovirus replication 185 Chapter 9 Summary and general discussion 219 Chapter 10 Appendix 231 Dutch Summary 233 Curriculum vitae 236 PhD Portfolio 237 Acknowledgements 239 List of Publications 243 CHAPTER 1 General introduction and outline of the thesis 1 | P age 2 | P age
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