Your search keyword '"Antibody Formation genetics"' showing total 2 results

1. Genetic and environmental variation in antibody and t-cell mediated responses in the great tit.

Author

Kilpimaa J, Van de Casteele T, Jokinen I, Mappes J, and Alatalo RV

Subjects

Animals, Antibody Formation genetics, Environment, Finland, Genotype, Immunization veterinary, Inflammation, Passeriformes genetics, Phytohemagglutinins pharmacology, Skin Tests, Wings, Animal drug effects, Wings, Animal pathology, Antibody Formation immunology, Diphtheria-Tetanus Vaccine immunology, Genetic Variation, Passeriformes immunology, T-Lymphocytes immunology

Abstract

Host parasite coevolution assumes pathogen specific genetic variation in host immune defense. Also, if immune function plays a role in the evolution of life history, allocation to immune function should be heritable. We conducted a cross-fostering experiment to test the relative importance of genetic and environmental sources of variation in T-cell mediated inflammatory response and antigen specific antibody responses in the great tits Parus major. Cell mediated response was measured during the nestling period and antibody response against two novel antigens was measured in two-month-old juveniles raised in a laboratory. We found no effect of nest of origin, but a strong effect of rearing environment on cell mediated response. In contrast, we found a large effect of nest of origin on antibody response to both, diphtheria and tetanus antigens suggesting genetic variation. In a model where responses to both antigens were analyzed simultaneously, we found a significant origin-by-antigen interaction, suggesting that genetic variation in antibody responses is specific to particular antigens. Large genetic variation in antibody responses found in this study suggests that host immune defense may evolve and specificity of genetic variation in antibody responses suggests that host defense may be pathogen specific as models of host-parasite coevolution suggest. Our results also suggest that different immune traits are to some degree independent and outcome of the interactions between immune function and the environment may depend on the particular immune trait measured.

Published

2005

2. The effect of HLA class II, insulin and CTLA4 gene regions on the development of humoral beta cell autoimmunity.

Author

Hermann R, Laine AP, Veijola R, Vahlberg T, Simell S, Lähde J, Simell O, Knip M, and Ilonen J

Subjects

Antigens, CD, CTLA-4 Antigen, Child, Child, Preschool, Cohort Studies, Finland, HLA-DQ Antigens genetics, HLA-DQ beta-Chains, HLA-DR Antigens genetics, HLA-DRB1 Chains, Humans, Infant, Insulin genetics, Insulin Antibodies genetics, Antibody Formation genetics, Antigens, Differentiation genetics, Autoimmune Diseases genetics, Genes, MHC Class II, Islets of Langerhans immunology

Abstract

Aims/hypothesis: The aim of this study was to explore the contribution of genetic factors to the emergence of beta-cell-specific humoral autoimmunity., Subjects and Methods: We analysed the effect of HLA class II, insulin (INS; -23 HphI variant) and cytotoxic T-lymphocyte-associated protein 4 (CTLA4 [+49 and CT60]) genes on the appearance of beta-cell-specific autoantibodies in a large population-based birth cohort recruited in Finland. Infants carrying increased risk HLA DQB1 genotypes were monitored for the appearance of autoantibodies (islet cell autoantibodies [ICA], insulin autoantibodies [IAA], glutamic acid decarboxylase autoantibodies [GADA] and islet antigen 2 antibodies [IA-2A]). Those who developed beta-cell-specific autoantibodies were studied (n=574, mean follow-up time: 4.9 years; range 0.5-9.3)., Results: IAA emerged at a higher rate in children with the -23 HphI AA INS genotype than in those carrying AT or TT variants (hazard ratio 2.1, 95% CI 1.4-2.9, p<0.001). This effect of the INS locus was present in both HLA DQB1 risk groups. The appearance of IAA showed a strong association also with the HLA DRB1*0401 allele (hazard ratio 13.1, 95% CI 1.8-93.4, p<0.001). The development of IA-2A was also somewhat accelerated by the DRB1*0401 variant (p=0.03). Isolated ICA positivity was independent of the HLA and INS genotypes. None of the humoral immune markers showed association with the CTLA4 gene., Conclusions/interpretation: The INS and the DRB1 loci appear to contribute to the pathogenesis of type 1 diabetes by initiating/modifying insulin-specific autoimmunity. The emergence of IAA represents a crucial step in the development of beta cell autoimmunity in young children, in whom the appearance of GADA and IA-2A is linked to IAA.

Published

2005