The hypothesis which underlies the predictions made in this application is that antigen specific T cell responses by newborns fail when the antigen presenting function of their mononuclear cells is blocked. The hypothesis is formulated to account for impaired immune responses which may follow neonatal blood transfusions or neonatal infection with herpes simplex virus, cytomegalovirus or rubella virus. The clinical model selected to test the predictions derived from the hypothesis is that of cutaneous and or CNS recurrences of herpes simplex virus (HSV) following a perinatal HSV infection. Approximately 1:2000 infants born in the USA is perinatally infected with HSV and this is a clinically important infection because the initial mortality is high and motor development is delayed in a subset of the survivors despite anti-viral treatment. We previously showed that the frequency of HSV-specific T cells measured in limiting dilution assays was low for 1 or more years in the subset of survivors who had cutaneous recurrences of the virus, but that the production of IgG 1 and 3 subclass antibodies to the virus was unimpaired. """"""""Clonal paralysis"""""""" is proposed as the mechanism to account for the delay in clonal expansion of HSV-specific T cells in these infants. Existing animal models indicate that clonal paralysis occurs as a consequence of antigen binding to T cells in the absence of helper factors. The studies proposed in this application will characterize the potential of T cells to be stimulated or paralyzed in vitro by T cell receptor ligation in cultures where the accessory cells have been preincubated with herpes simplex virus. Where HSV interferes with a response, the defective lymphokine will be characterized. These studies will be followed by an analysis of T cell phenotypes and alloantigen-specific response of T cells of infants who survived a neonatal HSV infection. The in vitro response of naive (CD45RA) and memory (CD45R0) T cell phenotypes will be measured separately.
The third aim will determine the duration of the deficient memory T cell response to HSV following neonatal infection and attempt to correlate this with the clinical course and frequency of recurrences in a prospective study. Responses to HSV will be quantitated by limiting dilution cultures and will be compared with healthy controls who were infected with HSV after the neonatal period. The results of these studies will be important because they will be the first systematic analysis of the potential for in vivo interference with T cell development, and the development of specific immunity, in a population of infants who are at risk for impaired CNS development.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD013733-14
Application #
2197028
Study Section
Immunological Sciences Study Section (IMS)
Project Start
1980-09-29
Project End
1996-03-31
Budget Start
1994-04-01
Budget End
1996-03-31
Support Year
14
Fiscal Year
1994
Total Cost
Indirect Cost
Name
University of Colorado Denver
Department
Pediatrics
Type
Schools of Medicine
DUNS #
065391526
City
Aurora
State
CO
Country
United States
Zip Code
80045
Hayward, A R; Cosyns, M; Zhang, Y (1995) Frequency and cytokine phenotype of blood T cells from premature infants responding to staphylococcal enterotoxin B. Pediatr Res 37:455-9
Hayward, A; Cosyns, M (1994) Proliferative and cytokine responses by human newborn T cells stimulated with staphylococcal enterotoxin B. Pediatr Res 35:293-8
Hayward, A R; Zerbe, G O; Levin, M J (1994) Clinical application of responder cell frequency estimates with four years of follow up. J Immunol Methods 170:27-36
Hayward, A R; Read, G S; Cosyns, M (1993) Herpes simplex virus interferes with monocyte accessory cell function. J Immunol 150:190-6
Li, J; Campbell, D; Hayward, A R (1992) Differential response of human thymus cells to CD2 antibodies: fragmentation of DNA of CD45RO+ and proliferation of CD45RO- subsets. Immunology 75:305-10
Hayward, A; Shriber, M; Kubo, R et al. (1992) T-cell repopulation following neonatal injection of non-obese diabetic (NOD) mice with anti-T-cell antibodies. Immunology 76:110-6
Hayward, A R; Shriber, M (1992) Reduced incidence of insulitis in NOD mice following anti-CD3 injection: requirement for neonatal injection. J Autoimmun 5:59-67
Groothuis, J R; Levin, M J; Lehr, M V et al. (1992) Immune response to split-product influenza vaccine in preterm and full-term young children. Vaccine 10:221-5
Chinn, A; Cosyns, M; Hayward, A R (1990) T cell proliferative response to interleukin 2: different frequency of responders among CD45R0 and CD45RA subsets. Cell Immunol 131:132-9
Hayward, A R; Clarke, J; Cosyns, M (1990) V beta 5 and V beta 8 memory T cells in adults and infancy: co-ordinated increase in response to early antigen stimulus. Clin Exp Immunol 81:475-8

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