T Cell Epitopes in Coxsackievirus B4 Structural Proteins Concentrate in Regions Conserved between Enteroviruses

AbstractThe present study aimed to characterize systematically the target epitopes of T cell responses in CBV4 structural proteins. These were studied by synthesizing 86 overlapping 20-aa-long peptides covering the known sequence of CBV4 structural proteins and analyzing the proliferation responses of 18 CBV4-specific T cell lines against these peptides. Recognized peptides differed depending on the HLA-DR genotype of the T cell donor. They were concentrated to the VP4 and VP2 regions as six of seven common peptide epitopes located in this region, whereas there was only one in the VP3 region and none in the VP1 region. Peptides from conserved areas were recognized more often (on average, 15% of them stimulated each T cell line) than those derived from variable areas (3%) (P < 0.0001, Fisher's exact test). Some conserved peptides inducing T cell responsiveness in most subjects were identified, a knowledge which can be useful in the development of new synthetic vaccines

Maahanmuuttajien keuhkotuberkuloosin seulonta on käynnistynyt hitaasti

Maahanmuuttajien, jotka eivät ole turvapaikanhakijoita tai pakolaisia, keuhkotuberkuloosiseulonta toteutuu vain osassa kunnista ja niissäkin vaihtelevasti. Ongelmia on ollut mm. seulottavien tavoittamisessa

Maahanmuuttajien keuhkotuberkuloosin seulonta on käynnistynyt hitaasti

Maahanmuuttajien, jotka eivät ole turvapaikanhakijoita tai pakolaisia, keuhkotuberkuloosiseulonta toteutuu vain osassa kunnista ja niissäkin vaihtelevasti. Ongelmia on ollut mm. seulottavien tavoittamisessa

Diagnostic Potential of Parechovirus Capsid Proteins

To study humoral and cellular immunity against human parechovirus type 1 (HPEV1), the viral capsid proteins VP0, VP1, and VP3 were expressed and purified as glutathione S-transferase (GST)-tagged recombinant proteins. The fusion proteins were used to raise antisera in rabbits. VP0 and VP1 antisera specifically detected HPEV1-infected cells in culture by immunoperoxidase staining and immunofluorescence. Furthermore, antisera against the VP0 and VP1 proteins had neutralizing effects against HPEV1 infection. When the HPEV1 antibody titers of 20 adults and 55 children were determined by a microneutralization test, the prevalence of HPEV1 antibodies in the adult population was 96%, while 50% of children were seropositive. Selected sera were used to evaluate HPEV1 fusion proteins as antigens in an enzyme immunoassay. The VP3 capsid protein appeared to be suitable for the purpose, with specificity of 100% and sensitivity of 96% compared to the neutralization test. Furthermore, T-cell responses to the purified HPEV1 and HPEV1 capsid fusion proteins were studied in 20 adults. Sixty percent of the subjects had T-cell proliferation responses to purified HPEV1, and 90% of the subjects also had positive T-cell responses to at least one of the GST capsid proteins

Cell Membrane-Associated Measles Virus Components Inhibit Antigen Processing

AbstractMeasles virus (MV)-induced immune suppression is an important reason for MV-associated mortality and morbidity. Despite numerous studies, the mechanisms of immune suppression still remain poorly defined. In the present study we analyzed the effect of MV components on the T-cell recognition of specific non-MV antigens. We demonstrated that even inactivated MV could inhibit the presentation of unprocessed protein antigen to specific T cells, whereas MV did not affect the responses of specific T cells to representative synthetic peptide epitopes derived from complex antigens. The inhibition was induced by MV-infected cell membranes. The kinetics of the MV-dependent inhibition suggested an impaired antigen processing in mononuclear cells as addition of MV-infected cell debris 4 h after the beginning of cell cultures no longer inhibited T-cell responsiveness