Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses

Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses

During the export of flavivirus particles through the secretory pathway, a viral envelope glycoprotein, prM, is cleaved by the proprotein convertase furin; this cleavage is required for the subsequent rearrangement of receptor-binding E glycoprotein and for virus infectivity. Similar to many furin s...

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Main Authors: Poonsook Keelapang, Roongtawan Sriburi, Sanpaechuda Supasa, Nantaya Panyadee, Adisak Songjaeng, Aroonroong Jairungsri, Chunya Puttikhunt, Watchara Kasinrerk, Prida Malasit, Nopporn Sittisombut
Other Authors: Thailand National Center for Genetic Engineering and Biotechnology
Format: Article
Published: 2018
Subjects:
Immunology and Microbiology
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/21398
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spelling th-mahidol.213982018-07-24T10:44:00Z Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses Poonsook Keelapang Roongtawan Sriburi Sanpaechuda Supasa Nantaya Panyadee Adisak Songjaeng Aroonroong Jairungsri Chunya Puttikhunt Watchara Kasinrerk Prida Malasit Nopporn Sittisombut Thailand National Center for Genetic Engineering and Biotechnology Chiang Mai University Mahidol University Immunology and Microbiology During the export of flavivirus particles through the secretory pathway, a viral envelope glycoprotein, prM, is cleaved by the proprotein convertase furin; this cleavage is required for the subsequent rearrangement of receptor-binding E glycoprotein and for virus infectivity. Similar to many furin substrates, prM in vector-borne flaviviruses contains basic residues at positions P1, P2, and P4 proximal to the cleavage site; in addition, a number of charged residues are found at position P3 and between positions P5 and P13 that are conserved for each flavivirus antigenic complex. The influence of additional charged residues on pr-M cleavage and virus replication was investigated by replacing the 13-amino-acid, cleavage-proximal region of a dengue virus (strain 16681) with those of tick-borne encephalitis virus (TBEV), yellow fever virus (YFV), and Japanese encephalitis virus (JEV) and by comparing the resultant chimeric viruses generated from RNA-transfected mosquito cells. Among the three chimeric viruses, cleavage of prM was enhanced to a larger extent in JEVpr/16681 than in YFVpr/16681 but was slightly reduced in TBEVpr/16681. Unexpectedly, JEVpr/16681 exhibited decreased focus size, reduced peak titer, and depressed replication in C6/36, PS, and Vero cell lines. The reduction of JEVpr/16681 multiplication correlated with delayed export of infectious virions out of infected cells but not with changes in specific infectivity. Binding of JEVpr/16681 to immobilized heparin and the heparin-inhibitable infection of cells were not altered. Thus, diverse pr-M junction-proximal sequences of flaviviruses differentially influence pr-M cleavage when tested in a dengue virus prM background. More importantly, greatly enhanced prM cleavability adversely affects dengue virus export while exerting a minimal effect on infectivity. Because extensive changes of charged residues at the pr-M junction, as in JEVpr/16681, were not observed among a large number of dengue virus isolates, these results provide a possible mechanism by which the sequence conservation of the pr-M junction of dengue virus is maintained in nature. 2018-07-24T03:44:00Z 2018-07-24T03:44:00Z 2004-03-01 Article Journal of Virology. Vol.78, No.5 (2004), 2367-2381 10.1128/JVI.78.5.2367-2381.2004 0022538X 2-s2.0-10744223893 https://repository.li.mahidol.ac.th/handle/123456789/21398 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=10744223893&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Immunology and Microbiology
spellingShingle Immunology and Microbiology
Poonsook Keelapang
Roongtawan Sriburi
Sanpaechuda Supasa
Nantaya Panyadee
Adisak Songjaeng
Aroonroong Jairungsri
Chunya Puttikhunt
Watchara Kasinrerk
Prida Malasit
Nopporn Sittisombut
Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
description During the export of flavivirus particles through the secretory pathway, a viral envelope glycoprotein, prM, is cleaved by the proprotein convertase furin; this cleavage is required for the subsequent rearrangement of receptor-binding E glycoprotein and for virus infectivity. Similar to many furin substrates, prM in vector-borne flaviviruses contains basic residues at positions P1, P2, and P4 proximal to the cleavage site; in addition, a number of charged residues are found at position P3 and between positions P5 and P13 that are conserved for each flavivirus antigenic complex. The influence of additional charged residues on pr-M cleavage and virus replication was investigated by replacing the 13-amino-acid, cleavage-proximal region of a dengue virus (strain 16681) with those of tick-borne encephalitis virus (TBEV), yellow fever virus (YFV), and Japanese encephalitis virus (JEV) and by comparing the resultant chimeric viruses generated from RNA-transfected mosquito cells. Among the three chimeric viruses, cleavage of prM was enhanced to a larger extent in JEVpr/16681 than in YFVpr/16681 but was slightly reduced in TBEVpr/16681. Unexpectedly, JEVpr/16681 exhibited decreased focus size, reduced peak titer, and depressed replication in C6/36, PS, and Vero cell lines. The reduction of JEVpr/16681 multiplication correlated with delayed export of infectious virions out of infected cells but not with changes in specific infectivity. Binding of JEVpr/16681 to immobilized heparin and the heparin-inhibitable infection of cells were not altered. Thus, diverse pr-M junction-proximal sequences of flaviviruses differentially influence pr-M cleavage when tested in a dengue virus prM background. More importantly, greatly enhanced prM cleavability adversely affects dengue virus export while exerting a minimal effect on infectivity. Because extensive changes of charged residues at the pr-M junction, as in JEVpr/16681, were not observed among a large number of dengue virus isolates, these results provide a possible mechanism by which the sequence conservation of the pr-M junction of dengue virus is maintained in nature.
author2 Thailand National Center for Genetic Engineering and Biotechnology
author_facet Thailand National Center for Genetic Engineering and Biotechnology
Poonsook Keelapang
Roongtawan Sriburi
Sanpaechuda Supasa
Nantaya Panyadee
Adisak Songjaeng
Aroonroong Jairungsri
Chunya Puttikhunt
Watchara Kasinrerk
Prida Malasit
Nopporn Sittisombut
format Article
author Poonsook Keelapang
Roongtawan Sriburi
Sanpaechuda Supasa
Nantaya Panyadee
Adisak Songjaeng
Aroonroong Jairungsri
Chunya Puttikhunt
Watchara Kasinrerk
Prida Malasit
Nopporn Sittisombut
author_sort Poonsook Keelapang
title Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
title_short Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
title_full Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
title_fullStr Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
title_full_unstemmed Alterations of pr-M Cleavage and Virus Export in pr-M Junction Chimeric Dengue Viruses
title_sort alterations of pr-m cleavage and virus export in pr-m junction chimeric dengue viruses
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/21398
_version_ 1763494442759618560

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