8 research outputs found
Molecular cloning, differential expression and 3D structural analysis of the MHC class-II β chain from sea bass (Dicentrarchus labrax L.)
The major histocompatibility complex class I and II molecules (MHC-I and MHC-II) play a pivotal role in vertebrate immune
response to antigenic peptides. In this paper we report the cloning and sequencing of the MHC class II b chain from sea bass (Dicentrarchus
labrax L.). The six obtained cDNA sequences (designated as Dila-DAB) code for 250 amino acids, with a predicted 21
amino acid signal peptide and contain a 28 bp 50-UTR and a 478 bp 30-UTR. A multiple alignment of the predicted translation of the
Dila-DAB sequences was assembled together with other fish and mammalian sequences and it showed the conservation of most
amino acid residues characteristic of the MHC class II b chain structure. The highest basal Dila-DAB expression was found in gills,
followed by gut and thymus, lower mRNA levels were found in spleen, peripheral blood leucocytes (PBL) and liver. Stimulation of
head kidney leukocytes with LPS for 4 h showed very little difference in the Dila-DAB expression, but after 24 h the Dila-DAB
level decreased to a large extent and the difference was statistically significant. Stimulation of head kidney leukocytes with different
concentrations of rIL-1b (ranging from 0 to 100 ng/ml) resulted in a dose-dependent reduction of the Dila-DAB expression. Moreover,
two 3D Dila-DAB*0101 homology models were obtained based on crystallographic mouse MHC-II structures complexed
with D10 T-cell antigen receptor or human CD4; features and differences between the models were evaluated and discussed. Taken
together these results are of interest as MHC-II structure and function, molecular polymorphism and differential gene expression
are in correlation with disease resistance to virus and bacteria in teleost fish.L'articolo è disponibile sul sito dell'editore http://www.sciencedirect.com/This work was supported by the European Commission within the project IMAQUANIM (EC contract number
FOOD-CT-2005-007103)
Graft versus host reactions in the rat. An experimental study
This study postulates that Graft versus Host Disease can, theoretically, be seen as the resultant of three vectors, which might be of crucial importance not only in the initiation but also in the manner of progression of the GvH reaction (GvIHR). These vectors are firstly the T cell population
and their phenotypically determined subsets (UnC OX-8+ and W3/25+ Tcells). Secondly, the degree of MHC incompatibility (class I and class II ) and lastly the target organ systen involved. This latter vector comprises organs of both the lympho-hemopoietic and non-lympho-hemopoietic system.
This thesis investigates the roles of these three vectors separately and/or in combination in a series of experiments designed to shed light on their relative importance in conditloning the nature of the GvHD. Evidence is presented which indicates that it is the first two vectors that
primarily determine the strength of the GvHR, whereas it is the third vector that determines the final outcome of a GvHD. ...
Zie: Summary
Varying disease-mediated selection at different life-history stages of Atlantic salmon in fresh water
Laboratory studies on associations between disease resistance and susceptibility and major histocompatibility (MH) genes in Atlantic salmon Salmo salar have shown the importance of immunogenetics in understanding the capacity of populations to fight specific diseases. However, the occurrence and virulence of pathogens may vary spatially and temporally in the wild, making it more complicated to predict the overall effect that MH genes exert on fitness of natural populations and over several life‐history stages. Here we show that MH variability is a significant determinant of salmon survival in fresh water, by comparing observed and expected genotype frequencies at MH and control microsatellite loci at parr and migrant stages in the wild. We found that additive allelic effects at immunogenetic loci were more likely to determine survival than dominance deviation, and that selection on certain MH alleles varied with life stage, possibly owing to varying pathogen prevalence and/or virulence over time. Our results highlight the importance of preserving genetic diversity (particularly at MH loci) in wild populations, so that they have the best chance of adapting to new and increased disease challenges as a result of projected climate warming and increasing aquaculture
Varying disease-mediated selection at different life-history stages of Atlantic salmon in fresh water
Laboratory studies on associations between disease resistance and susceptibility and major histocompatibility (MH) genes in Atlantic salmon Salmo salar have shown the importance of immunogenetics in understanding the capacity of populations to fight specific diseases. However, the occurrence and virulence of pathogens may vary spatially and temporally in the wild, making it more complicated to predict the overall effect that MH genes exert on fitness of natural populations and over several life-history stages. Here we show that MH variability is a significant determinant of salmon survival in fresh water, by comparing observed and expected genotype frequencies at MH and control microsatellite loci at parr and migrant stages in the wild. We found that additive allelic effects at immunogenetic loci were more likely to determine survival than dominance deviation, and that selection on certain MH alleles varied with life stage, possibly owing to varying pathogen prevalence and/or virulence over time. Our results highlight the importance of preserving genetic diversity (particularly at MH loci) in wild populations, so that they have the best chance of adapting to new and increased disease challenges as a result of projected climate warming and increasing aquaculture