Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation

博士 === 國防醫學院 === 生命科學研究所 === 107 === Upon virus infection of a cell, the uncoated DNA is usually blocked by the host intrinsic immune system inside the nucleus. Although it is crucial for the virus to counteract the host intrinsic immune system and access its genome, little is known about how viruse...

Full description

Bibliographic Details
Main Authors: WEI, SUNG-CHAN, 魏頌讚
Other Authors: CHAO,YU-CHAN
Format: Others
Language:en_US
Published: 2019
Online Access:http://ndltd.ncl.edu.tw/handle/fk99t4
id ndltd-TW-107NDMC0105005
record_format oai_dc
spelling ndltd-TW-107NDMC01050052019-05-30T03:57:15Z http://ndltd.ncl.edu.tw/handle/fk99t4 Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation 桿狀病毒IE2經由Daxx與病毒DNA互動形成組織嚴密的核內結構體以活化基因表現之機制的研究 WEI, SUNG-CHAN 魏頌讚 博士 國防醫學院 生命科學研究所 107 Upon virus infection of a cell, the uncoated DNA is usually blocked by the host intrinsic immune system inside the nucleus. Although it is crucial for the virus to counteract the host intrinsic immune system and access its genome, little is known about how viruses can knock down host restriction and identify their blocked genomes for later viral gene activation and replication. We found that upon baculovirus transduction into Vero E6 cells, the invading viral DNA is trapped by the cellular death domain-associated protein (Daxx) and histone H3.3 in the nucleus, resulting in gene inactivation. IE2, a baculovirus transactivator, targets host Daxx through IE2 SUMO-interacting motifs (SIMs) to indirectly access viral DNA, and forms unique nuclear body structures, we term clathrate cage-like apparatus (CCLA), at the early transduction stage. At the later transduction stage, CCLAs gradually enlarge, and IE2 continues to closely interact with viral DNA but no longer associates with Daxx at this later transduction stage. The association with Daxx is essential for IE2 CCLA formation, and the enlarged CCLAs are capable of transactivating viral but not chromosomal DNA of the Vero E6 cells. Our study reveals that baculovirus IE2 counteracts the cellular intrinsic immune system by specifically targeting Daxx and H3.3 to associate with viral DNA indirectly and efficiently. IE2 then utilizes this association with viral DNA to establish a unique CCLA cellular nanomachinery, which is visible under light microscopy, as an enclosed environment for high level viral gene expression. CHAO,YU-CHAN 趙裕展 2019 學位論文 ; thesis 107 en_US
collection NDLTD
language en_US
format Others
sources NDLTD
description 博士 === 國防醫學院 === 生命科學研究所 === 107 === Upon virus infection of a cell, the uncoated DNA is usually blocked by the host intrinsic immune system inside the nucleus. Although it is crucial for the virus to counteract the host intrinsic immune system and access its genome, little is known about how viruses can knock down host restriction and identify their blocked genomes for later viral gene activation and replication. We found that upon baculovirus transduction into Vero E6 cells, the invading viral DNA is trapped by the cellular death domain-associated protein (Daxx) and histone H3.3 in the nucleus, resulting in gene inactivation. IE2, a baculovirus transactivator, targets host Daxx through IE2 SUMO-interacting motifs (SIMs) to indirectly access viral DNA, and forms unique nuclear body structures, we term clathrate cage-like apparatus (CCLA), at the early transduction stage. At the later transduction stage, CCLAs gradually enlarge, and IE2 continues to closely interact with viral DNA but no longer associates with Daxx at this later transduction stage. The association with Daxx is essential for IE2 CCLA formation, and the enlarged CCLAs are capable of transactivating viral but not chromosomal DNA of the Vero E6 cells. Our study reveals that baculovirus IE2 counteracts the cellular intrinsic immune system by specifically targeting Daxx and H3.3 to associate with viral DNA indirectly and efficiently. IE2 then utilizes this association with viral DNA to establish a unique CCLA cellular nanomachinery, which is visible under light microscopy, as an enclosed environment for high level viral gene expression.
author2 CHAO,YU-CHAN
author_facet CHAO,YU-CHAN
WEI, SUNG-CHAN
魏頌讚
author WEI, SUNG-CHAN
魏頌讚
spellingShingle WEI, SUNG-CHAN
魏頌讚
Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
author_sort WEI, SUNG-CHAN
title Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
title_short Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
title_full Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
title_fullStr Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
title_full_unstemmed Baculovirus IE2 interacts with viral DNA through Daxx to generate an organized nuclear body structure for gene activation
title_sort baculovirus ie2 interacts with viral dna through daxx to generate an organized nuclear body structure for gene activation
publishDate 2019
url http://ndltd.ncl.edu.tw/handle/fk99t4
work_keys_str_mv AT weisungchan baculovirusie2interactswithviraldnathroughdaxxtogenerateanorganizednuclearbodystructureforgeneactivation
AT wèisòngzàn baculovirusie2interactswithviraldnathroughdaxxtogenerateanorganizednuclearbodystructureforgeneactivation
AT weisungchan gǎnzhuàngbìngdúie2jīngyóudaxxyǔbìngdúdnahùdòngxíngchéngzǔzhīyánmìdehénèijiégòutǐyǐhuóhuàjīyīnbiǎoxiànzhījīzhìdeyánjiū
AT wèisòngzàn gǎnzhuàngbìngdúie2jīngyóudaxxyǔbìngdúdnahùdòngxíngchéngzǔzhīyánmìdehénèijiégòutǐyǐhuóhuàjīyīnbiǎoxiànzhījīzhìdeyánjiū
_version_ 1719196200647786496