Faculty
Yan Yuan
Contact information
248 Levy Research Building
4010 Locust Street
Philadelphia, PA 19104
4010 Locust Street
Philadelphia, PA 19104
Office: (215) 573-7556
Fax: (215) 898-8385
Fax: (215) 898-8385
Email:
yuan2@pobox.upenn.edu
yuan2@pobox.upenn.edu
Publications
Education:
B.Sc. (Microbiology)
Shandong University, 1982.
M.Sc. (Cell Biology)
Shanghai Institute of Cell Biology, Academia Sinica, 1985.
Ph.D. (Biochemistry and Molecular Biology)
Baylor College of Medicine, 1991.
Permanent linkB.Sc. (Microbiology)
Shandong University, 1982.
M.Sc. (Cell Biology)
Shanghai Institute of Cell Biology, Academia Sinica, 1985.
Ph.D. (Biochemistry and Molecular Biology)
Baylor College of Medicine, 1991.
Description of Research Expertise
Research InterestsKaposi's sarcoma-associated herpesvirus.
Key words: Kaposi's sarcoma-associated herpesvirus, virus-host interaction, microRNAs.
Description of Research
Kaposi's sarcoma-associated herpesvirus (KSHV) is a newly-identified human herpesvirus and an emerging pathogen. Increasing evidence indicate that this virus is the etiologic agent of Kaposi’s sarcoma (KS), primary effusion lymphoma (PEL) and multicentric Castleman’s disease (MCD), leading neoplasia of AIDS patients. Unique among all DNA tumor viruses, KSHV lytic replication contributes significantly to the formation of KS lesions by either facilitating viral spread to the target site or releasing paracrine factors to support the growth of KS tumor cells. Therefore, KSHV reactivation from latency to lytic replication is not only important for viral propagation, but also critical for viral pathogenicity. My laboratory has been interested in the mechanisms used by KSHV to switch from latency to lytic life cycle. In the past a few years, several major accomplishments have been achieved. (1) Several KSHV immediate-early (IE) genes have been identified in our lab. Since the reactivation process is controlled and regulated by viral immediate-early gene products, identification of the IE genes has opened an avenue towards revelation of the mechanisms underlying KSHV infection and reactivation. The functional roles of these IE proteins have begun to be unraveled. ORF50 was found to be a transcriptional activator, able to activate viral lytic genes; ORF45 was shown to be a protein that the virus uses to subvert interferon-related host antiviral defenses. (2) Two origins of lytic DNA replication (ori-Lyt) in the KSHV genome and two origin binding proteins (K8 and ORF50) were identified. These discoveries allow the study of the regulation of KSHV lytic DNA replication. (3) Mature KSHV particles were purified and virion components were identified by using proteomic approaches including an HPLC ion trap mass spectrometic (LC-MS/MS) analysis. Twenty-four viral proteins and many cellular proteins were identified in KSHV virions. In addition, virion-wide protein interaction network were investigated. These data set up a foundation for exploring the functions of these virion proteins in viral particle assembly.
Currently, the research in my lab is following up those lines of investigation that were successfully developed over the past several years and aim at the following issues.
We will continue to investigate the roles of immediate-early proteins ORF50 and ORF45 in KSHV replication and pathogenicity. In particular, ORF45 inhibits virus-induced interferon production by blocking IRF-7 phosphorylation and nuclear translocation. This protein is not only expressed with immediate-early kinetics, but is also packaged into infectious virions. Our hypothesis is that ORF45 has crucial roles in both initial infection process and viral reactivation.
We will analyze the structure and function of KSHV ori-Lyt and investigating the role of the ori-Lyt binding proteins K8 and ORF50 in the regulation of KSHV lytic DNA replication. Furthermore, a number of cellular proteins have recently been identified in the KSHV lytic replication complex in our lab using a proteomic approach. The data suggest that the viral lytic replication requires association of an ori-Lyt with nuclear matrix and is coupled with transcription events. Thus, we will study the regulation of viral DNA replication in different levels including nuclear skeleton, chromatin structure and interplay between DNA replication and transcription.
Virion proteins are believed to contain the functional information for virion assembly and de novo infection. Identification of the entire repertoire of KSHV virion proteins and revelation of protein interaction network within a virion made it possible to study the roles of these virion proteins in viral life cycle. Based on protein interaction data, functional role of each tegument proteins will be predicted and then studied through analyzing recombinant mutant viruses. In addition, the structure of tegument of KSHV will be investigated using cryo-electron microscopy (cryo-EM) in collaboration with Dr. Zhou lab at University of California at Los Angeles.
Overall, through the studies in these three directions, we will gain insights into the mechanisms that control KSHV infection and reactivation, that will shed light on the pathogenesis of KS and other KSHV-associated diseases.
Rotation Projects
1. Mechanism of inactivation of IRF-7 by KSHV ORF45.
2. Cis- and trans-acting elements for KSHV lytic DNA replication.
3. Structure and function of KSHV tegument proteins.
4. Regulation of host cellular microRNA expression during KSHV and EBV infection.
Lab personnel:
Yan Wang, Ph. D. (Tokushima Uni.) – Research Associate
Sathish Narayanan, Ph.D. (Christian Med. College) – Postdoctoral Associate
Lorenzo Gonzalez, Ph.D. (Oviedo Uni.) – Postdoctoral Associate
Ying Shao, Ph.D. (Uni. Delaware) – Postdoctoral Associate
Tareq Jaber, Ph.D. (University of Nebraska) – Postdoctoral Associate
Xin Wang, BSc. – Graduate Student
Selected Publications:
Sathish, N., Zhu, F.X. and Yuan, Y. (2009) Kaposi’s Sarcoma-associated Herpesvirus ORF45 Interacts with Kinesin-2 Transporting Viral Capsid-Tegument Complexes along Microtubules. PLoS Pathogens 5(3): e1000332.
Rozen, R., Sathish, N., Li, Y. and Yuan, Y. (2008) Virion-wide protein interactions of Kaposi’s sarcoma-associated herpesvirus. J. Virol. 82: 4742-4750.
Wang, Y., Li, H., Hollow, C. and Yuan, Y. (2008) Kaposi’s Sarcoma-associated Herpesvirus ori-Lyt-dependent DNA Replication: Involvement of Cellular Factors in the Replication. J. Virol. 82: 2867-2882.
Lin, C., Li, H., Wang, Y, Kudchodkar, S., Zhu, F. X. and Yuan, Y. (2003) Kaposi's sarcoma-associated herpesvirus ori-Lyt-dependent DNA replication: Identification of the ori-Lyt and association of K8 bZip protein with the origin. J. Virol. 77:5578-5588.
Zhu, F. X., King, S. M., Smith, E. J., Levy, D. E. and Yuan, Y. (2002) A Kaposi's Sarcoma-associated Herpesviral protein inhibits virus-mediated induction of type I interferon by blocking IRF-7 phosphorylation and nuclear accumulation. Proc. Natl. Acad. Sci. USA 99:5573-5578.
Zhu, F. X., Cusano, T. and Yuan, Y. (1999) Identification of the immediate early transcripts of Kaposi's sarcoma associated herpesvirus. J. Virol. 73: 5556-5567.
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