A Non-structural 1 Protein G53D Substitution Attenuates a Clinically Tested Live Dengue Vaccine.

Cell reports 2020 May 12

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The molecular basis of dengue virus (DENV) attenuation remains ambiguous and hampers a targeted approach to derive safe but nonetheless immunogenic live vaccine candidates. Here, we take advantage of DENV serotype 2 PDK53 vaccine strain, which recently and successfully completed a phase-3 clinical trial, to identify how this virus is attenuated compared to its wild-type parent, DENV2 16681. Site-directed mutagenesis on a 16681 infectious clone identifies a single G53D substitution in the non-structural 1 (NS1) protein that reduces 16681 infection and dissemination in both Aedes aegypti, as well as in mammalian cells to produce the characteristic phenotypes of PDK53. Mechanistically, NS1 G53D impairs the function of a known host factor, the endoplasmic reticulum (ER)-resident ribophorin 1 protein, to properly glycosylate NS1 and thus induce a host antiviral gene through ER stress responses. Our findings provide molecular insights on DENV attenuation on a clinically tested strain. Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.

Citation

Milly M Choy, Dorothy H L Ng, Tanamas Siriphanitchakorn, Wy Ching Ng, Karin B Sundstrom, Hwee Cheng Tan, Summer L Zhang, Kitti W K Chan, Menchie Manuel, R Manjunatha Kini, Kuan Rong Chan, Subhash G Vasudevan, Eng Eong Ooi. A Non-structural 1 Protein G53D Substitution Attenuates a Clinically Tested Live Dengue Vaccine. Cell reports. 2020 May 12;31(6):107617