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Literature DB >> 15308716

Generation of a latency-deficient gammaherpesvirus that is protective against secondary infection.

Tammy M Rickabaugh¹, Helen J Brown, DeeAnn Martinez-Guzman, Ting-Ting Wu, Leming Tong, Fuqu Yu, Steven Cole, Ren Sun.

Abstract

Kaposi's sarcoma-associated herpesvirus and murine gammaherpesvirus-68 (MHV-68) establish latent infections and are associated with various types of malignancies. They are members of the gamma-2 herpesvirus subfamily and encode a replication and transcriptional activator, RTA, which is necessary and sufficient to disrupt latency and initiate the viral lytic cycle in vitro. We have constructed a recombinant MHV-68 virus that overexpresses RTA. This virus has faster replication kinetics in vitro and in vivo, is deficient in establishing latency, exhibits a reduction in the development of a mononucleosis-like disease in mice, and can protect mice against challenge by wild-type MHV-68. The present study, by using MHV-68 as an in vivo model system, demonstrated that RTA plays a critical role in the control of viral latency and suggests that latency is a determinant of viral pathogenesis in vivo.

Entities: Disease Species

Mesh：

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Year: 2004 PMID： 15308716 PMCID： PMC506911 DOI： 10.1128/JVI.78.17.9215-9223.2004

Source DB: PubMed Journal: J Virol ISSN： 0022-538X Impact factor: 5.103

31 in total

1. Latent antigen vaccination in a model gammaherpesvirus infection.

Authors: E J Usherwood; K A Ward; M A Blackman; J P Stewart; D L Woodland
Journal: J Virol Date: 2001-09 Impact factor: 5.103

Review 2. Vaccination against murine gamma-herpesvirus infection.

Authors: D L Woodland; E J Usherwood; L Liu; E Flaño; I J Kim; M A Blackman
Journal: Viral Immunol Date: 2001 Impact factor: 2.257

3. Disruption of gammaherpesvirus 68 gene 50 demonstrates that Rta is essential for virus replication.

Authors: Iglika V Pavlova; Herbert W Virgin; Samuel H Speck
Journal: J Virol Date: 2003-05 Impact factor: 5.103

4. Effective vaccination against long-term gammaherpesvirus latency.

Authors: Scott A Tibbetts; J Scott McClellan; Shivaprakash Gangappa; Samuel H Speck; Herbert W Virgin
Journal: J Virol Date: 2003-02 Impact factor: 5.103

5. Kaposi's sarcoma-associated herpesvirus open reading frame 50/Rta protein activates the entire viral lytic cycle in the HH-B2 primary effusion lymphoma cell line.

Authors: L Gradoville; J Gerlach; E Grogan; D Shedd; S Nikiforow; C Metroka; G Miller
Journal: J Virol Date: 2000-07 Impact factor: 5.103

6. Rta of murine gammaherpesvirus 68 reactivates the complete lytic cycle from latency.

Authors: T T Wu; E J Usherwood; J P Stewart; A A Nash; R Sun
Journal: J Virol Date: 2000-04 Impact factor: 5.103

7. Function of Rta is essential for lytic replication of murine gammaherpesvirus 68.

Authors: T T Wu; L Tong; T Rickabaugh; S Speck; R Sun
Journal: J Virol Date: 2001-10 Impact factor: 5.103

Review 8. Update on Kaposi's sarcoma and other HHV8 associated diseases. Part 2: pathogenesis, Castleman's disease, and pleural effusion lymphoma.

Authors: Ulrich R Hengge; Thomas Ruzicka; Stephen K Tyring; Martin Stuschke; Michael Roggendorf; Robert A Schwartz; Siegfried Seeber
Journal: Lancet Infect Dis Date: 2002-06 Impact factor: 25.071

9. NF-kappaB inhibits gammaherpesvirus lytic replication.

Authors: Helen J Brown; Moon Jung Song; Hongyu Deng; Ting-Ting Wu; Genhong Cheng; Ren Sun
Journal: J Virol Date: 2003-08 Impact factor: 5.103

10. Characterization of a spontaneous 9.5-kilobase-deletion mutant of murine gammaherpesvirus 68 reveals tissue-specific genetic requirements for latency.

Authors: Eric T Clambey; Herbert W Virgin; Samuel H Speck
Journal: J Virol Date: 2002-07 Impact factor: 5.103

20 in total

1. Dendritic cells loaded with tumor B cells elicit broad immunity against murine gammaherpesvirus 68 but fail to prevent long-term latency.

Authors: Janet Weslow-Schmidt; Fang Ye; Stephanie S Cush; Kathleen A Stuller; Marcia A Blackman; Emilio Flaño
Journal: J Virol Date: 2010-06-30 Impact factor: 5.103

2. Construction and characterization of an infectious murine gammaherpesivrus-68 bacterial artificial chromosome.

Authors: Ting-Ting Wu; Hsiang-I Liao; Leming Tong; Ronika Sitapara Leang; Greg Smith; Ren Sun
Journal: J Biomed Biotechnol Date: 2010-12-09

3. ORF30 and ORF34 are essential for expression of late genes in murine gammaherpesvirus 68.

Authors: Ting-Ting Wu; Tina Park; Hana Kim; Thuy Tran; Leming Tong; DeeAnn Martinez-Guzman; Nichole Reyes; Hongyu Deng; Ren Sun
Journal: J Virol Date: 2008-12-17 Impact factor: 5.103

4. Importance of antibody in virus infection and vaccine-mediated protection by a latency-deficient recombinant murine γ-herpesvirus-68.

Authors: Michael L Freeman; Claire E Burkum; David L Woodland; Ren Sun; Ting-Ting Wu; Marcia A Blackman
Journal: J Immunol Date: 2011-12-23 Impact factor: 5.422

5. In vivo activation of toll-like receptor-9 induces an age-dependent abortive lytic cycle reactivation of murine gammaherpesvirus-68.

Authors: Catherine Ptaschinski; Joel Wilmore; Nancy Fiore; Rosemary Rochford
Journal: Viral Immunol Date: 2010-12 Impact factor: 2.257

6. Kaposi's sarcoma-associated herpesvirus/human herpesvirus 8 RTA reactivates murine gammaherpesvirus 68 from latency.

Authors: Tammy M Rickabaugh; Helen J Brown; Ting-Ting Wu; Moon Jung Song; Seungmin Hwang; Hongyu Deng; Katherine Mitsouras; Ren Sun
Journal: J Virol Date: 2005-03 Impact factor: 5.103

7. Murine Gammaherpesvirus 68 ORF48 Is an RTA-Responsive Gene Product and Functions in both Viral Lytic Replication and Latency during In Vivo Infection.

Authors: Jing Qi; Chuanhui Han; Danyang Gong; Ping Liu; Sheng Zhou; Hongyu Deng
Journal: J Virol Date: 2015-03-11 Impact factor: 5.103