M Yoshioka scite author profile

This paper reports the localization of the regions on the beta-chain that are recognized by T cells from mice immunized with haemoglobin. The 14 overlapping peptides encompassing the entire beta-chain were examined in vitro for their ability to stimulate lymph-node cells from haemoglobin-primed B10.D2 (H-2d) and SJL (H-2s) mice. Several regions of the molecule (T sites) were found to stimulate haemoglobin-primed lymph-node cells. This strategy has enabled the localization of the full profile of T-cell recognition of the beta-chain by these mouse strains. Some of the regions that stimulated T cells appeared to coincide with those recognized by antibodies (i.e. B cells). It is noteworthy that, in addition to sites recognized by both T and B cells, the protein has other sites that are recognized exclusively by T cells and to which no detectable antibody response is directed.

Non-specific peptide size effects in the recognition by site-specific T-cell clones. Demonstration with a T site of myoglobin

Bean

et al. 1987

Six regions (T sites) of myoglobin (Mb) were found by a comprehensive synthetic strategy to stimulate Mb-primed lymph-node cells. To define precisely the N-terminal boundary of the immunodominant T site (residues 107-120) with site-specific T-cell clones and to determine the effects of peptide size on their stimulation, two sets of peptides were employed. In one set, the peptides were elongated to the left from His-113 by one-residue increments of the Mb sequence. The other set represented an identical stepwise elongation by one-residue increments of the Mb sequence, but which were extended by additional unrelated ('nonsense') residues to a uniform size of 14 residues. Examination of the proliferative responses of eight T-cell clones, derived from Mb-primed DBA/2 (H-2d) or SJL (H-2s) mice, revealed a dramatic non-specific size requirement. In every clone, the longer nonsense-extended peptides achieved maximum stimulating activity at a lower optimum peptide dose than its natural-sequence, but shorter, analogue. In addition, slight (one-residue) differences in the N-terminal boundaries among the clones was observed. Thus, the fine specificity of each clone was mapped to the region from residue 111 or 112 to about residue 120 of Mb, which coincides with the site of B-cell recognition and resides in a small discrete surface region of the protein chain.

T-cell recognition and antigen presentation of myoglobin. Protein recognition by site-specific T-cell clones is influenced by amino acid substitutions outside the site

1989

Six T-cell clones from SJL mice were prepared from T-cell lines that were obtained by passage with synthetic myoglobin (Mb) peptide 107-120. In addition, a T-cell clone, specific to this region of Mb, was isolated from a Mb-passaged T-cell culture. The proliferative responses of these clones to Mb variants from 14 different species were studied. It was found, as expected, that amino acid replacements within the site affected its recognition by the T-cell clones. In addition to these effects, the T-cell recognition site, like the sites recognized by antibodies, was also influenced by substitutions of residues that are close to site residues in three-dimensional structure but are otherwise distant in sequence. This is noteworthy in view of the fact that six of the clones were selected with a free peptide, and thus the environmental residues are clearly not part of the 'contact' residues of the site. These findings are discussed in relation to the presentation of the antigen and are interpreted as indicating that Mb is presented in its intact form to the T-cells in vitro.

T cells specific for alpha-beta interface regions of hemoglobin recognize the isolated subunit but not the tetramer and indicate presentation without processing.

Proc. Natl. Acad. Sci. U.S.A.

Bixler

1989

Processing of a protein antigen into fragments is believed to be a prerequisite for its presentation by the antigen-presenting cell to the T cell. This model would predict that, in oligomeric proteins, T cells prepared with specificity for regions that are buried within subunit asiation surfaces should recognize the respective regions in vitro equally well on the isolated subunit or on the oligomer. Three hemoglobin (Hb) a-chain synthetic peptides, corresponding to areas that are situated either completely [a-(31-45)] or partially [a-(41-45) and a-(81-95)] within the interface between the a and fi subunits of Hb, and a fourth peptide representing a completely exposed area in tetrameric Hb were used as immumogens in SJL/J (H-2') mice. Peptide-primed T cells were passaged in vitro with the respective peptide to obtain peptide-specific T-lymphocyte lines. T-cell clones were isolated from these lines by limiting dilution. T-cell lines and clones that were specific for buried regions in the subunit association surfaces recognized the free peptide and the isolated subunit but not the Hb tetramer. On the other hand, T cells with specificity against regions that are not involved in subunit interaction and are completely exposed in the tetramer recognized the peptide, the isolated subunit, and the oligomeric protein equally well. The responses of the T-cell lines and clones were major histocompatibility complex-restricted. Since the same x-irradiated antigen-presenting cells were employed, the results could not be attributed to differences or defects in Hb processing. The findings indicate that in vitro the native (unprocessed and undissociated) oligomeric protein was the trigger of major histocompatibility complex-restricted T-cell responses.The presentation of a protein antigen to T lymphocytes is believed to be dependent on a first step in which the protein is internalized and processed into fragments that reappear on the surface of the antigen-presenting cell (APC) and are presented in association with major histocompatibility complex (MHC) molecules to the T cell (1, 2). Although there have been reports that a protein molecule is presented intact by the APC (see Discussion), the idea that processing is a prerequisite for presentation is by far the most widely accepted model. Many consequences of this model can be predicted and tested. If protein fragments and not the intact protein are presented by the APC to the T cell, it would be expected that T cells that are specific for the subunit interface in an oligomeric protein (if such T cells could be made) should recognize the isolated subunit or the oligomer equally well. Obviously, the T-cell recognition site cannot remain buried (in the interface between the subunits) after the oligomer is processed into fragments. If, on the other hand, these T cells recognize the peptide and the isolated subunit but not the oligomer, then this would be indicative that the subunit interface has remained buried in an intact oligomeric protein.In this paper we report the ro...

Preparation of T-lymphocyte lines and clones with specificities to preselected protein sites by in vitro passage with free synthetic peptides: Demonstration with myoglobin sites

Bixler

1983

Molecular Immunology