Abstract

The biological rationale for the expression of two co-stimulatory molecules (CD80 and CD86) on the membrane of professional APC is not clear. Many results demonstrate that both molecules provide equivalent co-stimulatory signals to T-cells. Different roles for CD80 and CD86 in the activation of distinct subpopulations of T-cells have also been described in both in vivo and in vitro models. Our published data along with other results indicate that CD86, but not CD80, stimulates cellular immune responses during DNA vaccination of mice. The important question is why CD86, but not CD80 is required for augmentation of T-cell response after vaccination? Based on our results we suggest several mechanisms to explain these cell responses after vaccination? Based on our results we suggest several mechanisms to explain these functional differences between CD80 and CD86 molecules. First, expression of MHC class I and CD86, but not CD80 along with immunogen may induce local invasion of immunocompetent cells crucial for generation of immune responses. Second, CD80 and CD86 may activate different subpopulations of T-cells. Third, the triggering of receptors with CD80 and CD86 molecules may supply different signals to T-cells. Finally, the ligation of CD86, but not CD80 on the surface of APC could provide important signal to these cells and in turn induce production of certain molecules such as cytokines/lymphokines/chemokines, which are important for T cell activation. To evaluate these hypotheses we propose using DNA immunization as a model system to investigate the following: 1.) The differential effects of CD80 and CD86 expression in the microenvironment of MHC class I positive or negative muscle tissues (i.e. the invasion of immunocompetent cells at the site of DNA inoculation). 2). The activation of different subsets of CTL (CD4+ or C8+) and T helper cells (Th1 or Th2) after co-immunization with immunogen and CD80/CD86 expressing plasmids. 3). The functional region/s of human CD86 molecule involved in enhancement of cellular immune responses after co-immunization with DNA encoding immunogen and different CD80/CD86 mutant molecules. 4) The synergistic effect of co- stimulatory molecules and cytokines produced by professional APC, on T-cell activation after DNA vaccination. 5). The differential expression of genes after ligation of CD86 versus CD80 on muscle cells and professional APC.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI044809-03
Application #
6349888
Study Section
Special Emphasis Panel (ZRG1-SSS-4 (02))
Program Officer
Quill, Helen R
Project Start
2000-02-01
Project End
2005-01-31
Budget Start
2001-02-01
Budget End
2002-01-31
Support Year
3
Fiscal Year
2001
Total Cost
$306,379
Indirect Cost

  Institution

Name
Institute for Molecular Medicine
Department
Type
DUNS #
City
Huntington Beach
State
CA
Country
United States
Zip Code
92647

  Publications

Mamikonyan, Grigor; Kiyatkin, Anatoly; Movsesyan, Nina et al. (2008) Detection of the active components of calf thymus nuclear proteins (TNP), histones that are binding with high affinity to HIV-1 envelope proteins and CD4 molecules. Curr HIV Res 6:318-26
Mkrtichyan, M; Ghochikyan, A; Loukinov, D et al. (2008) DNA, but not protein vaccine based on mutated BORIS antigen significantly inhibits tumor growth and prolongs the survival of mice. Gene Ther 15:61-4
Ghochikyan, Anahit; Mkrtichyan, Mikayel; Loukinov, Dmitri et al. (2007) Elicitation of T cell responses to histologically unrelated tumors by immunization with the novel cancer-testis antigen, brother of the regulator of imprinted sites. J Immunol 178:566-73
Ghochikyan, Anahit; Mkrtichyan, Mikayel; Petrushina, Irina et al. (2006) Prototype Alzheimer's disease epitope vaccine induced strong Th2-type anti-Abeta antibody response with Alum to Quil A adjuvant switch. Vaccine 24:2275-82
Agadjanyan, Michael G; Ghochikyan, Anahit; Petrushina, Irina et al. (2005) Prototype Alzheimer's disease vaccine using the immunodominant B cell epitope from beta-amyloid and promiscuous T cell epitope pan HLA DR-binding peptide. J Immunol 174:1580-6
Gevorkian, Goar; Petrushina, Irina; Manoutcharian, Karen et al. (2004) Mimotopes of conformational epitopes in fibrillar beta-amyloid. J Neuroimmunol 156:10-20
Ghochikyan, Anahit; Vasilevko, Vitaly; Petrushina, Irina et al. (2003) Generation and characterization of the humoral immune response to DNA immunization with a chimeric beta-amyloid-interleukin-4 minigene. Eur J Immunol 33:3232-41
Vasilevko, Vitaly; Ghochikyan, Anahit; Sadzikava, Nadya et al. (2003) Immunization with a vaccine that combines the expression of MUC1 and B7 co-stimulatory molecules prolongs the survival of mice and delays the appearance of mouse mammary tumors. Clin Exp Metastasis 20:489-98
Cribbs, David H; Ghochikyan, Anahit; Vasilevko, Vitaly et al. (2003) Adjuvant-dependent modulation of Th1 and Th2 responses to immunization with beta-amyloid. Int Immunol 15:505-14
Vasilevko, Vitaly; Ghochikyan, Anahit; Holterman, Mark J et al. (2002) CD80 (B7-1) and CD86 (B7-2) are functionally equivalent in the initiation and maintenance of CD4+ T-cell proliferation after activation with suboptimal doses of PHA. DNA Cell Biol 21:137-49