Cytotoxic T lymphocytes in protection against equine infectious anemia virus.
Abstract: Cytotoxic T lymphocytes (CTL) are associated with virus control in horses infected with equine infectious anemia virus (EIAV). Early in infection, control of the initial viremia coincides with the appearance of CTL and occurs before the appearance of neutralizing antibody. In carrier horses, treatment with immunosuppressive drugs results in viremia before a change in serum neutralizing antibody occurs. Clearance of initial viremia caused by other lentiviruses, including human immunodeficiency virus-1 and simian immunodeficiency virus, is also associated with CTL and not neutralizing antibody. In addition, depletion of CD8+ cells prior to infection of rhesus monkeys with simian immunodeficiency prevents clearance of virus and the same treatment of persistently infected monkeys results in viremia. Cats given adoptive transfers of lymphocytes from vaccinated cats were protected and the protection was MHC-restricted, occurred in the absence of antiviral humoral immunity, and correlated with the transfer of cells with feline immunodeficiency virus-specific CTL and T-helper lymphocyte activities. Therefore, a lentiviral vaccine, including one for EIAV, needs to induce CTL. Based on initial failures to induce CTL to EIAV proteins by any means other than infection, we attempted to define an experimental system for the evaluation of methods for CTL induction. CTL epitopes restricted by the ELA-A1 haplotype were identified and the MHC class I molecule presenting these peptides was identified. This was done by expressing individual MHC class I molecules from cDNA clones in target cells. The target cells were then pulsed with peptides and used with effector CTL stimulated with the same peptides. In a preliminary experiment, immunization of three ELA-A1 haplotype horses with an Env peptide restricted by this haplotype resulted in CTL in peripheral blood mononuclear cells (PBMC) which recognized the Env peptide and virus-infected cells, but the CTL response was transient. Nevertheless there was significant protection against clinical disease following EIAV challenge of these immunized horses when compared with three control horses given the same virus challenge. These data indicated that responses to peptides in immunized horses needed to be enhanced. Optimal CTL responses require help from CD4+ T lymphocytes, and experiments were done to identify EIAV peptides which stimulated CD4+ T lymphocytes in PBMC from infected horses with different MHC class II types. Two broadly cross-reactive Gag peptides were identified which stimulated only an interferon gamma response by CD4+ T lymphocytes, which indicated a T helper 1 response is needed for CTL stimulation. Such peptides should facilitate CTL responses; however, other problems in inducing protection against lentiviruses remain, the most significant of them being EIAV variants that can escape both CTL and neutralizing antibody. A possible solution to CTL escape variants is the induction of high-avidity CTL to multiple EIAV epitopes.
Publication Date: 2005-06-30 PubMed ID: 15984338DOI: 10.1079/ahr200482Google Scholar: Lookup
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Summary
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The research investigates the role of cytotoxic T lymphocytes (CTL) in managing and controlling equine infectious anemia virus (EIAV) in horses.
Key Findings
- The study observes that during early infection, the control of initial viremia happens along with the appearance of CTL, even before the appearance of the neutralizing antibody. This suggests that CTL plays a crucial role in the initial stages of viral infection control.
- It was found that the treatment of carrier horses with immunosuppressive drugs resulted in viremia before any changes in serum neutralizing antibodies occurred. Additionally, depleting CD8+ cells in rhesus monkeys prior to an infection prevented clearance of the virus, further pointing towards the important role of CTL in virus control.
Adoptive Transfer of Lymphocytes
- The researchers found that cats given adoptive transfers of lymphocytes were better protected and this protection was MHC-restricted. This suggests that transfer of virus-specific CTL cells could be a potential mechanism for protection against the virus.
CTL Induction
- For a vaccine for EIAV to work, it needs to induce CTL. However, previous attempts to induce CTL to EIAV proteins have failed unless infection was introduced. The researchers addressed this issue by attempting to identify an experimental system for the evaluation of methods for CTL induction.
- CTL epitopes restricted by the ELA-A1 haplotype were identified, and the MHC class 1 molecule presenting these peptides was found. This was achieved by expressing individual MHC class I molecules from cDNA clones in target cells, which were then pulsed with peptides.
- Immunizing three ELA-A1 haplotype horses with a Env peptide restricted by this haplotype resulted in CTL in PBMC recognizing the Env peptide and virus-infected cells. However, the CTL response was transient. Nonetheless, these horses had significant protection against EIAV compared with control horses.
Optimal CTL Responses and Challenges
- To generate optimal CTL responses, help from CD4+ T lymphocytes is needed. So, experiments were done to find EIAV peptides that excited CD4+ T lymphocytes in PBMC from infected horses with varying MHC class II types. This led to the identification of two broadly cross-reactive Gag peptides that appeared to stimulate only an interferon gamma response by CD4+ T lymphocytes, indicating a T helper 1 response is required for CTL stimulation.
- Despite these findings, the researchers also acknowledge that challenges persist in the fight against lentiviruses, such as EIAV variants that can evade both CTL and neutralizing antibodies. They propose that the induction of high-avidity CTL to multiple EIAV epitopes could be a potential solution to these issues.
Cite This Article
APA
McGuire TC, Fraser DG, Mealey RH.
(2005).
Cytotoxic T lymphocytes in protection against equine infectious anemia virus.
Anim Health Res Rev, 5(2), 271-276.
https://doi.org/10.1079/ahr200482 Publication
Researcher Affiliations
- Department of Veterinary Microbiology and Pathology, College of Veterinary Medicine, Washington State University, Pullman, WA 99164-7040, USA. mcguiret@vetmed.wsu.edu
MeSH Terms
- Animals
- Equine Infectious Anemia / immunology
- Horses
- Infectious Anemia Virus, Equine / immunology
- T-Lymphocytes, Cytotoxic / immunology
Citations
This article has been cited 4 times.- Liu C, Cook SJ, Craigo JK, Cook FR, Issel CJ, Montelaro RC, Horohov DW. Epitope shifting of gp90-specific cellular immune responses in EIAV-infected ponies.. Vet Immunol Immunopathol 2014 Oct 15;161(3-4):161-9.
- Liu C, Cook FR, Cook SJ, Craigo JK, Even DL, Issel CJ, Montelaro RC, Horohov DW. The determination of in vivo envelope-specific cell-mediated immune responses in equine infectious anemia virus-infected ponies.. Vet Immunol Immunopathol 2012 Aug 15;148(3-4):302-10.
- Patel JR, Heldens JG, Bakonyi T, Rusvai M. Important mammalian veterinary viral immunodiseases and their control.. Vaccine 2012 Feb 27;30(10):1767-81.
- Mealey RH, Littke MH, Leib SR, Davis WC, McGuire TC. Cloning and large-scale expansion of epitope-specific equine cytotoxic T lymphocytes using an anti-equine CD3 monoclonal antibody and human recombinant IL-2.. Vet Immunol Immunopathol 2007 Jul 15;118(1-2):121-8.
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