Paul M Lieberman, Ph.D.
Wistar Institute Professor of Microbiology
Department: Microbiology
Graduate Group Affiliations
Contact information
The Wistar Institute
Dept of Molecular Genetics, Rm 201
3601 Spruce St
Philadelphia, PA 19104-4265
Dept of Molecular Genetics, Rm 201
3601 Spruce St
Philadelphia, PA 19104-4265
Office: 215 898-9491
Fax: 215 898-0663
Fax: 215 898-0663
Email:
lieberman@wistar.org
lieberman@wistar.org
Publications
Education:
BA (Chemistry)
Cornell University, 1983.
Ph.D. (Molecular Virology)
The Johns Hopkin's University School of Medicine, 1989.
Permanent linkBA (Chemistry)
Cornell University, 1983.
Ph.D. (Molecular Virology)
The Johns Hopkin's University School of Medicine, 1989.
Description of Research Expertise
Research InterestsGenome maintenance and gene expression; Gammaherpesviruses and oncogenesis; Telomere Biology, Chromatin structure and genome stability; Transcription regulation.
Key words: viral latency, telomeres, chromatin, DNA replication, transcription regulation, herpesvirus.
Description of Research
Mechanisms of Genome Stability and Control of Viral Latency
The human tumor viruses, EBV and KSHV, establish latent infection in various tissues and serve as cofactors in lymphoid and epithelial cell malignancies. These latent viruses persist as nuclear minichromosomes for multiple generations in proliferating cells. Survival of the viral genome depends on viral-encoded and cellular factors involved in DNA replication, epigenetic organization, and chromosome dynamics. One project in the lab focuses on the role of telomere repeat factors (TRFs) in regulating viral genome stability by preventing a host DNA damage response to viral DNA. Recent studies have revealed that a telomere repeat containing non-coding RNA, termed TERRA, is bound by TRF2 and required for chromosome stability of the virus and the host cell. The role of TERRA in genome stability and response to environmental stresses, including viral infection, are under investigation. A second area of interest involves the organization of the genome into active and inactive regions through the boundary factor CTCF. We have found that CTCF coordinates RNA polymerase II transcription with a pattern of epigenetic markings. The mechanism through which CTCF establishes epigenetic boundaries is important for heritable, stable gene expression and ultimately for genome stability. A third major effort in the lab is to identify small molecule inhibitors of latent viral infection using high-throughput screening, chemo-informatic approaches, and chemical derivatization. Rotation students are welcome to explore various aspects of these research projects.
Rotation Projects
1. Characterization of non-coding telomere RNA (TERRA) in genome stability
2. Genome stability of gammaherpesviruses, EBV and KSHV
3. Role of CTCF and microRNA in establishing epigenetic code
4. High-Throughput Screening for inhibitors of latent virus infection
Lab personnel:
Zhong Deng, Ph.D., Postdoctoral Fellow
Raju Dheekollu, Ph.D., Postdoctoral Fellow
Fang Lu, Ph.D., Postdoctoral Fellow
Pu Wang, Ph.D., Postdoctoral Fellow
Hyojeung Kang, Ph.D., Postdoctoral Fellow
Julie Norseen, Predoctoral Student (GGR)
Andrew Rennekamp, Predoctoral Student (MVP
Kevin Tsay, Predoctoral Student (MVP)
Andreas Wiedmer, Research Technician
Scott Thompson, Research Technician
Selected Publications
Deng, .Z., Lezina, L., Chen, C.-J., Shtivelband, S., So, W., and Lieberman, P. M.: Telomeric proteins regulate episomal maintenance of Epstein-Barr Virus Origin of plasmid replication. Mol. Cell. 9(3): 493-503, 2003.Deng, Z., Chen, C.-J., Zerby, D., Delecluse, H.-J., and Lieberman, P. M. : Identification of acidic and aromatic residues in the Zta activation domain essential for Epstein-Barr virus reactivation. J. Virology 75(21): 10334-47, November 2001.
Solow, S., Salunek, M., and Lieberman, P. M. : Human TAFII250 phosphorylates TFIIA on serine residues important for TBP binding and transcription activation. J. Biol. Chem. 276: 15886-92, 2001.