S J Brett scite author profile

Nordeng³

et al. 1994

Eur J Immunol

The human fibroblast cell line, M1, expressing the products of transfected DRA and DRB1*0101 genes (M1-DR1) was unable to present intact influenza antigens to a series of DR1-restricted human T cell lines and clones, but was fully able to present synthetic peptides for T cell recognition. In contrast, M1-DR1 cells infected with live influenza virus were recognized by two polyclonal hemagglutinin- or whole virus-specific T cell lines and one of four T cell clones. This difference could not be accounted for simply by the ability of infectious virus to overcome a defect in antigen uptake by the M1-DR1 cells, in that direct studies of endocytosis showed that the M1 cells were more efficient than human B cells in the internalization of exogenous protein. These data suggested that the M1 cells were unable to present exogenous antigens but were capable of loading major histocompatibility complex (MHC) class II molecules with peptides derived from endogenous antigens. To investigate this further, the M1-DR1 cells were super-transfected with a cDNA encoding the p33 and p35 forms of the human invariant chain (Ii). Expression of the Ii chain was detected by intracytoplasmic staining of transfectants, and by metabolic labeling. Equimolar amounts of the p33 and p35 forms were detected, and the high level of p35 Ii was reflected by extensive retention of Ii protein in the endoplasmic reticulum. Addition of the Ii chain led to no recovery of presentation of intact antigens with DR1, but inhibited the presentation of live virus. These data indicate that MHC class II molecules in the M1-DR1 cells can be loaded with peptides derived from endogenous proteins, possibly in the biosynthetic pathway, and that the Ii chain has a role in limiting this route of class II antigen presentation.

Galactose Oxidation in the Design of Immunogenic Vaccines

Zheng

Tite

et al. 1992

Science

Potent immunological adjuvants are urgently required to complement recombinant and synthetic vaccines. However, it has not been possible to derive new principles for the design of vaccine adjuvants from knowledge of the mechanism of immunogenicity. Carbonyl-amino condensations, which are essential to the inductive interaction between antigen-presenting cells and T helper cells, were tested as a target for the enhancement of immune responses. Enzymic oxidation of cell-surface galactose to increase aminereactive carbonyl groups on murine lymphocytes and antigen-presenting cells provided a potent, noninflammatory method of enhancing the immunogenicity of viral, bacterial, and protozoal subunit vaccines in mice.

Comparison of antigen presentation of influenza A nucleoprotein expressed in attenuated AroA- Salmonella typhimurium with that of live virus.

Rhodes

Liew

et al. 1993

Rationally attenuated strains of Salmonella expressing foreign proteins represent a potentially important vaccine delivery system. The characteristics of Ag presentation of influenza nucleoprotein expressed in an AroA- strain of Salmonella typhimurium (SL3262-pNP-2) have therefore been compared with those of soluble purified nucleoprotein (NP) and infectious influenza virus. This represents three distinct modes of internalization of the same protein into APC. Human monocytes and the monocytic leukemia cell line THP-1 infected with SL3261-pNP-2 were found to present several different epitopes from NP to human CD4+ class II-restricted T lymphocytes. Ag presentation to these T cell clones was enhanced by pretreatment of THP-1 cells with IFN-gamma but not TNF-alpha. Bacterial phagocytosis and Ag presentation of NP were increased after opsonization of Salmonella with immune serum. Macrophages infected with SL3261-pNP-2 were unable to present NP to class I-restricted T cells. In contrast, cells infected with live influenza virus, although recognized by NP-specific class I-restricted CTL, were inefficiently recognized by NP-specific class II-restricted T cells. Ag presentation to CD4+ T cell clones by monocytes of SL3261-pNP-2, purified recombinant NP, and live influenza virus, but not the synthetic peptide 206-229, was inhibited by chloroquine and the protease inhibitors pepstatin A and leupeptin, suggesting that the major route of processing in each case was via the exogenous pathway. T cell recognition of NP via all of these Ag delivery systems was also abrogated by cycloheximide and brefeldin A treatment, indicating a requirement for recently synthesized MHC class II molecules in presentation of whole NP after processing but not for the corresponding synthetic peptide.

Human T cell recognition of influenza A nucleoprotein. Specificity and genetic restriction of immunodominant T helper cell epitopes.

Blau

Hughes-Jenkins

et al. 1991

The characterization of human T cell antigenic sites on influenza A nucleoprotein (NP) is important for subunit vaccine development for either antibody boosting during infection or to stimulate T cell-mediated immunity. To identify such sites, 31 synthetic peptides that cover more than 95% of the amino acid sequence from NP of influenza A/NT/60/68 virus were tested for their ability to stimulate PBL from 42 adult donors. The most frequently recognized region was covered by a peptide corresponding to residues 206-229 of NP, with 20/42 (48%) of responders. In many individuals this was also one of the peptides that stimulated the strongest T cell responses. Other regions that were also frequently recognized were 341-362 by 13/42 (30%), 297-318 by 10/42 (23%), and 182-205 by 9/42 (21%) of individuals. These peptides covered highly conserved regions in NP of influenza A viruses, suggesting that they could be useful in boosting cross-reactive immunity against the known type A virus strains. In order to define the class II restriction molecules used to present particular T cell epitopes, 22 persons from the donor panel were HLA-typed. The majority of persons who expressed DR2, and proliferated to NP also responded to the major immunodominant region 206-229. In addition, this peptide was also immunodominant in the one person expressing DRw13. The observation that recognition of this peptide is associated with DR2 was confirmed by using short term T cell lines and APC from a panel of typed donors. Further results with virus-specific T cell lines and clones and transfected L cells expressing DR molecules showed that DR1 could also present this peptide. Therefore the results suggest that recognition of 206-229 is associated with at least three different DR haplotypes and this may explain the high frequency with which this peptide is recognized in the population. The fine specificity of the response to peptide 206-229 was distinct when presented by DR1- or DR2-expressing APC. The DR1 response was dependent on the N terminus, and the DR2 response was directed to the C terminus of the peptide.

Priming of influenza virus-specific cytotoxic T lymphocytes vivo by short synthetic peptides.

Gao

Zheng

Liew

et al. 1991

Influenza virus-specific CTL were primed in vivo by immunization with short synthetic peptides representing major CTL epitopes from the nucleoprotein of type A influenza virus. The resultant CTL after in vitro boosting of primed spleen cells recognized both virus-infected and peptide-pulsed target cells. The requirement of CD4+ T cell activation was investigated in several ways. First the addition of helper epitopes to the CTL epitope did not enhance CTL generation, suggesting that helper activity was either not limiting or not required. However, in vivo depletion of CD4+ T cells completely inhibited the generation of CTL by peptide immunization. The inclusion of anti-CD4 in the in vitro restimulation with peptide also prevented the generation of CTL, whereas in vitro reactivation of virus immune spleen cells with peptide was not inhibited by anti-CD4. Thus there appears to be heterogeneity in the requirement of CD4+ T cell proliferation in CTL generation. One possibility is that virus infected cells can stimulate higher affinity T cells that are less helper T cell dependent.