Kevin Diebel
,
Credentials
PhD

Regional Dean, Duluth Campus
Biography

Research Summary

Herpesvirus infections are forever. Yet, an understanding of the molecular mechanisms employed by herpesviruses to establish and maintain a latent state of infection, which is critical to the formation of life-long infections, are poorly understood. We are interested in investigating the noncoding RNAs of gammaherpesviruses. Gammaherpesviruses are characterized as having a very limited host-cell range, replicating in lymphoblastoid cells, and establishing latent infections within lymphoid tissues. Gammaherpesvirus human pathogens include Epstein-Barr virus (EBV) and Kaposi's sarcoma-associated herpesvirus (KSHV). We study the small animal model of these human pathogens known as Gammaherpesvirus 68 (yHV68). yHV68 is a powerful research tool to investigate gammaherpesvirus biology for several reasons: 1. Unlike EBV and KSHV, yHV68 is capable of robust lytic infection in commonly used mouse and human tissue culture cell lines, facilitating my ability to conduct a large amount of essential research without the need for an animal host, 2. The yHV68 genome has been cloned into a BAC plasmid system that is widely used among yHV68 researchers for BAC-mediated recombination allowing for easy manipulation of the yHV68 genome, 3. yHV68 infects mice and can be investigated in vivo during all phases of virus replication and in various host genetic backgrounds allowing for research that not only can define key viral genes required for replication in vivo but can also define host mechanisms of control of virus infection, 4. Samples taken from infected mice can be studied ex vivo for their ability to reactivate from latency. miRNAs are small noncoding RNAs approximately 20-25 nucleotides in length that have the ability to post-transcriptionally down-regulate the expression of mRNAs that contain complementary sequences with their 3' untranslated regions (3'UTR). Interestingly, all gammaherpesviruses have miRNA genes whose expression can be detected during all phases of the viral lifecycle, including latency.

Although the identification of gammaherpesvirus miRNAs in almost ten years old, very few roles for the biological functions of these miRNAs have been defined. The proposed theory for why gammaherpesviruses harbor miRNAs in their genome stems from the fact that these RNAs are predicted to control various aspects of host gene expression while maintaining a nonimmunogenic prolife, thus escaping immune surveillance.

The expression of the miRNA genes of yHV68 is unique, and unlike other gammaherpesviruses and most cellular miRNAs, their production is dependent on transcription by RNA polymerase III (pol III) rather than RNA polymerase II (pol II). Additionally, the yHV68 miRNA sequences themselves are embedded within a tRNA-miRNA dicistronic transcripts which we call TMERs (tRNA-miRNA encoded RNAs). Directed by our knowledge of yHV68 miRNA gene expression, we have recently generated a yHV68 mutant virus devoid in the production of the all of the TMER genes. We are now using this virus as a tool to further investigate the role of the yHV68 TMER genes, specifically the miRNAs associated with the TMER genes, in the context of infection – both in vitro and in vivo. Our goal in conducting this research is to gain a deeper understanding of the biological mechanisms in play with regards to virally encoded noncoding RNAs in the context of establishing and maintaining the latent infection state of yHV68 and gammaherpesviruses in general.

Community Engagement

University of Minnesota

  • 2016-present, Member of the Student Assessment Committee (SAC)
  • 2016-present, Member of the University of Minnesota Medical Education Council (EC)
  • 2016-present, Member of the Scientific Foundations Committee (SFC)

Medical School Service

  • 2015-2016, Member of the Curriculum of the Future Task Force Duluth Campus
  • 2015-present, Member of the Scholastic Standing Committee (SSC) Duluth Campus
  • 2013-present, Member of the Committee on Undergraduate Medical Education, Duluth Campus (CUMED)
  • 2016-present, Chair of the Committee on Undergraduate Medical Education, Duluth Campus (CUMED)

Publications

See full list of publications at: PubMed

K.W. Diebel, K. Zhou, A.B. Clarke, and L.T. Bemis. 2016. Beyond the Ribosome: Extra-translational Functions of tRNA Fragments. Biomarker Insights 11: 1-8. PMID: 26843810. Journal Impact Factor:, Sum of times cited: 2; Role: Manuscript preparation and editing.

K.W. Diebel, L.M. Oko, E.M. Medina, B. Niemeyer, C.J. Warren, D.J. Claypool, S. Tibbetts, C. Cool, E.T. Clambey, and L.F. van Dyk. 2015. Gammaherpesvirus small non-coding RNAs are bifunctional elements that regulate infection and contribute to virulence in vivo. mBio 6(1):e01670-14. PMID: 25691585. Journal Impact Factor: 4.741 in 2013, Sum of times cited: 12, Role: Developed study design, conducted experimental studies, data acquisition, manuscript preparation and editing.

K.W. Diebel, D.J. Claypool, L.F. van Dyk. 2014. A conserved RNA polymerase III promoter required for gammaherpesvirus TMER transcription and microRNA processing. Gene 544(1), 8-18. PMID: 24747015. Journal Impact Factor: 2.093 in 2013, Sum of times cited: 8; Role: Developed study design, conducted experimental studies, data acquisition, manuscript preparation and editing.

A. Orioli, C. Pascali, J. Quartararo, K.W. Diebel, V. Praz, D. Romascano, R. Percundani, L.F. van Dyk, N. Hernandez, M. Teichmann, G. Dieci. 2011. Widespread occurrence of non-canonical termination by human RNA polymerase III. Nucleic Acids Research 39:5499-5512. Journal Impact Factor: 8.128 in 2013, Sum of times cited: 27; Role: Conducted experimental studies, manuscript editing.

K.W. Diebel, A.L. Smith, L.F. van Dyk. 2010. Mature and functional viral miRNAs transcribed from novel RNA polymerase III promoters. RNA 16(1):170-185. Journal Impact Factor: 4.716 in 2013, Sum of times cited: 40; Role: Developed study design, conducted experimental studies, data acquisition, manuscript preparation and editing. *Highlighted as Silence Journal HOT paper: JAN 16, 2010.

 http://blogs.openaccesscentral.com/blogs/silence/entry/mature_and_functional_viral_mirnas

A.M. Domitrovich, K.W. Diebel, N. Ali, S. Sarker, A. Siddiqui. 2005. Role of La autoantigen and polypyrimidine tract binding protein in HCV Replication. Virology 335(1): 72-86. Journal Impact Factor: 3.201 in 2013, Sum of times cited: 65; Role: Conducted experimental studies, data acquisition, manuscript preparation and editing.

Teaching Summary

Microbiology and Immunology content expert for 1st and 2nd year medical students.

Teaching responsibilities include teaching within the following courses:

  • Introduction to Biomedical Science
  • Foundations of Medicine
  • Skin / Musculoskeletal Systems (course director 2014)
  • Neurological Systems (course director 2016-2017)
  • Immunology, Hematology, Oncology (course director 2017)
  • CRRAB I
  • CRRAB II
  • Gastrointestinal System
  • Hormonal and Reproductive Systems
  • Mentoring/Advising: graduate and undergraduate students

Honors and Recognition

Silver Presidential Scholarship Recipient – Metropolitan State, University of Denver, 1996-1998, Metropolitan State, University of Denver
Colorado Graduate Fellowship Recipient, 2004-2005
Summer Student Cancer Research Fellowship Recipient, 2002
Victor W. and Earleen Bolie Graduate Scholarship Fund Recipient, 2010
Research Award for Outstanding Research from the Medical Student Training Program – University of Colorado School of Medicine 21st Annual Student Research Forum, 2007, University of Colorado School of Medicine
RNA Society Travel Fellowship, 2012
Basic Science Teacher of the Year- Year Two, 2015, University of Minnesota Medical School Duluth
Honorable Mention- Basic Science Teacher of the Year- Year Two, 2016, University of Minnesota Medical School Duluth
Honorable Mention- Basic Science Teacher of the Year- Year Two, 2016, University of Minnesota Medical School Duluth
Outstanding Faculty Award- UMD Student Awards, 2016, University of Minnesota Duluth

Professional Memberships

American Society of Microbiology, 2009-Present
The RNA Society, 2010-Present
University of Colorado miRNA Research Group, 2009-2010, Co-founder and member
National Postdoctoral Association, 2011-2013
Contact

Contact

Address

Department of Biomedical Sciences
117 SMed
1035 University Drive
Duluth, MN 55812-3031