Explore UAB

Gastroenterology & Hepatology

Forging the future of gastroenterology and hepatology

The UAB Division of Gastroenterology and Hepatology is an integral part of one of the nation's largest health systems. Nationally known for our compassionate care, cutting-edge research, and comprehensive training programs, we're dedicated to delivering the most advanced care.

OUR PROGRAMS

Preparing the next generation of physicians and scientists

We're dedicated to nurturing and guiding the future generation of physicians and physician-scientists, recognizing that our trainees are the cornerstone of our nation's healthcare system.

OUR PEOPLE

Home to leading experts and distinguished scholars

Our faculty, staff, and trainees play an exceptionally critical role in shaping the future of healthcare through their expertise in education, research, and clinical practice, driving innovation and excellence.

Latest Headlines

  • UAB receives renewed funding for colorectal cancer screening project
    Nov 18, 2024
  • UAB celebrates milestone with 3,000 adult liver transplants
    Sep 26, 2024
  • UAB Hospital continues to be the best hospital in Alabama, Birmingham metro, according to U.S. News & World Report
    Jul 16, 2024
  • UAB to offer free colonoscopy screenings to under- and uninsured for second consecutive year
    May 21, 2024


Assistant Professor of Pathology
Phone:  205-975-7079
E-mail:  zhel@uab.edu 

hel

Dr. Hel earned his undergraduate and Master’s degrees in biochemistry, Department of Biochemistry, Charles University, Prague, Czech Republic in 1990.  He then earned his Ph.D. in experimental medicine in the Department of Experimental Medicine at McGill University in Montreal, Quebec in 1997. After a post-doctoral fellowship in the Laboratory of Animal Models and Retroviral Vaccines in the National Cancer Institute, NIH, he joined the Department of Pathology at UAB as Assistant Professor in 2003.

Dr. Hel’s laboratory focuses on the development of new HIV-1 vaccine candidates and immunization strategies, the development of new approaches to immune reconstitution therapy for HIV-1-infected individuals, and study of HIV-1-induced pathology in relation to virus-specific immune responses.  DNA-based vaccines are a promising approach for vaccination against a variety of pathogens and cancer, because such vaccines are safe, inexpensive, easy to store, and do not cause vector-directed immune responses.  Dr. Hel’s group hypothesizes that the immunogenicity of DNA vaccine candidates can be significantly increased by strategies enhancing the activation and recruitment of antigen presenting cells, by modification of the antigen resulting in its improved presentation, by coexpression of costimulatory molecules, and by blocking inhibitory mechanisms.  Recent results indicate that vaccine-induced CD4+ T cell responses confer protection against SIV in rhesus macaques in both preventive and therapeutic vaccination protocols.  Therefore, Dr. Hel’s group is seeking to identify DNA vaccine strategies that induce persistent, high-level, antigen-specific CD4+ T cell responses.  Memory CD8+ T cells that are generated in the absence of help provided by CD4+ T cells are defective in their ability to respond to secondary encounters with the antigen.  This represents a major hurdle for immunotherapeutic vaccination against HIV-1-infected individuals.  The laboratory also addresses whether the need for a CD4+ T cell help during DNA vaccination can be surmounted by coexpression of costimulatory molecular adjuvants.

Selected Publications

  1. Hel, Z., Skamene, E. and D. Radzioch. Two distinct regions in the 3′-UTR of tumor necrosis factor-α mRNA form complexes with macrophage proteins. Mol. Cell. Biol. 16:5579-5590, 1996.
  2. Hel, Z., DiMarco, S. and D. Radzioch. Characterization of the RNA-binding proteins forming complexes with a novel putative regulatory region in the 3′-UTR of TNF-α mRNA. Nuc. Acid Res. 26:2803-2812, 1998.
  3. Hel, Z., Venzon,D., Poudyal, M., Tsai, W.P., Giuliani, L., Woodward, R., Chougnet, C., Shearer, G., Altman, J., Watkins,D., Bischofberger, N., Abimuku, A., Markham, P., Tattaglia, J. and Franchini, G. 2000. Viremia control following structured treatment interruption and therapeutic immunization of SIV251-infected macaques. Nature Med. 6:1140-6.
  4. Belyakov, I.M., Hel, Z., Kelsall, B., Kuznetsov, V.A., Ahlers, J.D., Nacsa, J., Watkins, D.I., Allen, T.M., Sette, A., Altman, J., Woodward, R., Markham, P.D., Clements, J.D., Franchini, G., Strober, W. and J. A. Berzofsky. Mucosal AIDS vaccine reduces disease and viral load in gut reservoir and blood after mucosal infection of macaques. Nature Med. 7:1320-6, 2001.
  5. Hel, Z., Tsai, W.P., Thornton, A., Nacsa, J., Giuliani, L., Tryniszewska, E., Poudyal, M., Venzon, D., Wang, X., Altman, J., Watkins, D.I., Lu, W., von Gegerfelt, A., Felber, B.K., Tartaglia, J., Pavlakis, G.N. and G. Franchini. Potentiation of Simian immunodeficiency virus (SIV)-specific CD4(+) and CD8(+) T cell responses by a DNA-SIV and NYVAC-SIV prime/boost regimen. J. Immunol. 167: 7180-7191, 2001.
  6. Pal, R., Venzon, D., Letvin, N.L., Santra, S., Montefiori, D.C., Miller, N.R., Tryniszewska, E., Lewis, M.G., VanCott, T.C., Hirsch, V., Woodward, R., Gibson, A., Grace, M., Dobratz, E., Markham, P.D., Hel, Z., Nacsa, J., Klein, M., Tartaglia, J. and G. Franchini. ALVAC-SIV-gag-pol-env-based vaccination and macaque major histocompatibility complex class I (A*01) delay Simian immunodeficiency virus SIVmac-induced immunodeficiency. J. Virol. 76: 292-302, 2002.
  7. Hel, Z., Johnson, J.M., Tryniszewska, E., Tsai, W.P., Harrod, R., Fullen, J., Tartaglia, J. and G. Franchini. 2002. A novel chimeric Rev, Tat, and Nef (Retanef) antigen as a component of an SIV/HIV vaccine. Vaccine 20:3171-3186.
  8. Hel, Z. Nacsa, J., Tryniszewska, E., Tsai, W.P., Washington-Parks, R., Montefiori, D.C., Felber, B.K., Pavlakis, G.N., Tartaglia, J. and G. Franchini. Containment of SIV infection in vaccinated macaques: Correlation with the magnitude of virus-specific pre- and post-challenge CD4+ and CD8+ T-cell responses. J. Immunol. 169:4778-4787, 2002.
  9. Hel, Z., Nacsa, J., Tsai, W.P., Thornton, A., Giuliani, L., Tartaglia, J. and G. Franchini. Equivalent immunogenicity of the highly attenuated poxvirus-based ALVAC-SIV and NYVAC-SIV vaccine candidates in SIVmac251-infected macaques. Virology 304:125-134, 2002.
  10. Hel, Z., Tryniszewska, E., Johnson, J.M., Harrod, R., Fullen, J., Kalyanaraman, V.S., Altman, J.D., McNally, J., Kaprova, T., Felber, B.K., Tartaglia, J. and G. Franchini. Design and in vivo immunogenicity of a polyvalent vaccine based on SIVmac regulatory genes. DNA Cell. Biol. 21:619-626, 2002.