scholarly journals Specificity of T cell clones for antigen and autologous major histocompatibility complex products determines specificity for foreign major histocompatibility complex products.

1983 ◽  
Vol 158 (2) ◽  
pp. 428-437 ◽  
Author(s):  
S R Abromson-Leeman ◽  
H Cantor
Keyword(s):  
Major Histocompatibility Complex ◽  
T Cell ◽  
Molecular Mimicry ◽  
Class Ii ◽  
Major Histocompatibility ◽  
T Cell Clones ◽  
Complex Products ◽  
Mhc Molecules ◽  
Histocompatibility Complex ◽  
Cell Clones

We have analyzed a panel of T cell clones that corecognize defined epitopes of the insulin molecule in association with Ia for their patterns of recognition of alloantigens. A striking correlation is observed between recognition of the I-Ab gene product and cow insulin alpha loop and recognition of I-Eu of the PL/J haplotype. These results are consistent with the notion that reactions to foreign major histocompatibility complex (MHC) products reflect molecular mimicry by foreign class II antigens of 'physiologic' complexes formed by autologous class II MHC molecules and antigen.

Alloreactive T-cell clones. Ly phenotypes predict both function and specificity for major histocompatibility complex products

1983 ◽  
Vol 17 (2) ◽  
pp. 147-165 ◽  
Author(s):  
Anjana Rao ◽  
W. Jeffrey Allard ◽  
Patrick G. Hogan ◽  
Rene S. Rosenson ◽  
Harvey Cantor
Keyword(s):  
Major Histocompatibility Complex ◽  
T Cell ◽  
Major Histocompatibility ◽  
T Cell Clones ◽  
Complex Products ◽  
Histocompatibility Complex ◽  
Cell Clones ◽  
Alloreactive T Cell

scholarly journals Graft-versus-host resistance induced by class II major histocompatibility complex-specific T cell clones.

1991 ◽  
Vol 173 (2) ◽  
pp. 333-341 ◽  
Author(s):  
P V Lehmann ◽  
K Drexler ◽  
M Tary-Lehmann ◽  
F Falcioni ◽  
U Hurtenbach ◽  
...  
Keyword(s):  
Major Histocompatibility Complex ◽  
T Cell ◽  
Class Ii ◽  
Vascular Leakage ◽  
Major Histocompatibility ◽  
Antigen Specificity ◽  
T Cell Clones ◽  
Resistance Induction ◽  
Histocompatibility Complex ◽  
Cell Clones

Possible mechanisms of graft-vs.-host (GVH) resistance have been studied using a panel of seven class II major histocompatibility complex-specific T cell clones for elicitation and challenge. One clone recognized I-Ak,d,f, and expressed V beta 8.3 together with J beta 1.5. The remaining six clones were I-Ek specific and expressed V beta 15 rearranged to J beta 1.1 or J beta 1.3. The I-Ek-specific clones were also homologous to each other and different from the I-A-reactive one in the D and N regions. Four of the seven clones exhibited I-Ek-specific cytolytic activity. Each clone, when injected in sublethal numbers into appropriate recipients, could induce resistance to a subsequent lethal dose of any other clone in the panel. The resistance did not require sharing of either T cell receptor beta chains or antigen specificity, or MHC molecules by the eliciting and challenging clone. Cytolytic and noncytolytic clones were equally efficient in inducing GVH resistance. A prerequisite of resistance induction was the activation of eliciting clone subsequent to recognition of class II molecules in the host. Clones preactivated with high concentrations of recombinant interleukin 2, in vitro, could induce GVH resistance also in syngeneic hosts, suggesting that resistance induction was associated with the activated state of clone, rather than antigen recognition per se. In all instances of resistance, the challenging clones failed to induce vascular leakage, which was the cause of death in susceptible recipients (Lehmann, P. V., G. Schumm, D. Moon, U. Hurtenbach, F. Falcioni, S. Muller, and Z. A. Nagy. 1990. J. Exp. Med. 171:1485). Lipopolysaccharide (LPS) induced resistance to vascular leakage did not provide crossresistance to GVH and vice versa, suggesting that interleukin 1 alpha and tumor necrosis factor alpha implicated in LPS resistance are not involved in GVH resistance. Although the mechanism remains unclear, the most likely explanation for GVH resistance in this system is either the downregulation of permeability increasing effect in the challenging clone, or an induced refractoriness of blood vessels to this effect.

scholarly journals T cell clones with dual specificity for M1s and various major histocompatibility complex determinants.

1981 ◽  
Vol 154 (6) ◽  
pp. 1970-1974 ◽  
Author(s):  
S R Webb ◽  
K Molnar-Kimber ◽  
J Bruce ◽  
J Sprent ◽  
D B Wilson
Keyword(s):  
Major Histocompatibility Complex ◽  
T Cell ◽  
Major Histocompatibility ◽  
T Cell Clones ◽  
Histocompatibility Complex ◽  
Cell Clones ◽  
Dual Specificity

A high proportion of T cell clones derived from bulk cultures selected to M1s a,d determinants were found to have joint specificity for allo-H-2 determinants, and vice versa. Significantly, the patterns of H-2 alloreactivity shown by clones selected to M1sa,b determinants appeared to be random. The possible implications of these findings are discussed.

scholarly journals Immunogenicity and tolerogenicity of self-major histocompatibility complex peptides.

1990 ◽  
Vol 172 (5) ◽  
pp. 1341-1346 ◽  
Author(s):  
G Benichou ◽  
P A Takizawa ◽  
P T Ho ◽  
C C Killion ◽  
C A Olson ◽  
...  
Keyword(s):  
T Cells ◽  
Major Histocompatibility Complex ◽  
T Cell ◽  
Class Ii ◽  
Class I ◽  
Major Histocompatibility ◽  
Autoreactive T Cells ◽  
Mhc Molecules ◽  
Histocompatibility Complex ◽  
Self Tolerance

Mechanisms involved in self-antigen processing and presentation are crucial in understanding the induction of self-tolerance in the thymus. We examined the immunogenicity of determinants from major histocompatibility complex (MHC) molecules that are expressed in the thymus and have tested peptides derived from the polymorphic regions of class I and class II molecules. We found that two peptides corresponding to NH2 termini of the class II alpha and beta chains (Ak alpha 1-18 and Ak beta 1-16) could bind to self-Ak molecules with high affinity and, surprisingly, were immunogenic in that they could elicit strong proliferative T cell responses in B10.A mice (Ak, Ek). Neonatal injection of peptide Ak beta 1-16 resulted in complete unresponsiveness to this peptide at 8 wk of age showing that these T cells were susceptible to tolerance induction. We have also tested certain class I MHC peptides and showed that some can interact efficiently with class II MHC peptides to induce an autoreactive T cell proliferative response. Among these class I peptides is one (Dd 61-85) that has the capacity to bind to self-Ia without being immunogenic, and therefore represents an MHC determinant that had induced thymic self-tolerance. We conclude that some self-MHC molecules can be processed into peptides that can be presented in the context of intact class II molecules at the surface of antigen-presenting cells. Autoreactive T cells recognizing optimally processed self-peptide/MHC complexes are eliminated during development, whereas other potentially autoreactive T cells escape clonal inactivation or deletion. Incomplete tolerance to self-antigens enriches the T cell repertoire despite the fact that such T cells may eventually become involved in autoimmune disease.

scholarly journals The molecular basis of alloreactivity in antigen-specific, major histocompatibility complex-restricted T cell clones

Cell ◽  
1987 ◽  
Vol 51 (1) ◽  
pp. 59-69 ◽  
Author(s):  
Louis A. Matis ◽  
Simona B. Sorger ◽  
David L. McElligott ◽  
Pamela J. Fink ◽  
Stephen M. Hedrick
Keyword(s):  
Major Histocompatibility Complex ◽  
T Cell ◽  
Molecular Basis ◽  
Major Histocompatibility ◽  
T Cell Clones ◽  
Histocompatibility Complex ◽  
Cell Clones

scholarly journals Major Histocompatibility Complex–independent Recognition of a Distinctive Pollen Antigen, Most Likely a Carbohydrate, by Human CD8+ α/β T Cells

1997 ◽  
Vol 186 (6) ◽  
pp. 899-908 ◽  
Author(s):  
Silvia Corinti ◽  
Raffaele De Palma ◽  
Angelo Fontana ◽  
Maria Cristina Gagliardi ◽  
Carlo Pini ◽  
...  
Keyword(s):  
T Cells ◽  
Major Histocompatibility Complex ◽  
T Cell ◽  
Cd8 T Cells ◽  
T Cell Response ◽  
Major Histocompatibility ◽  
T Cell Clones ◽  
Histocompatibility Complex ◽  
Cell Clones

We have isolated CD8+ α/β T cells from the blood of atopic and healthy individuals which recognize a nonpeptide antigen present in an allergenic extract from Parietaria judaica pollen. This antigen appears to be a carbohydrate because it is resistant to proteinase K and alkaline digestion, is hydrophilic, and is sensitive to trifluoromethane-sulphonic and periodic acids. In addition, on a reverse-phase high performance liquid chromatography column the antigen recognized by CD8+ T cells separates in a fraction which contains >80% hexoses (glucose and galactose) and undetectable amounts of proteins. Presentation of this putative carbohydrate antigen (PjCHOAg) to CD8+ T cell clones is dependent on live antigen presenting cells (APCs) pulsed for >1 h at 37°C, suggesting that the antigen has to be internalized and possibly processed. Indeed, fixed APCs or APCs pulsed at 15°C were both unable to induce T cell response. Remarkably, PjCHOAg presentation is independent of the expression of classical major histocompatibility complex (MHC) molecules or CD1. CD8+ T cells stimulated by PjCHOAg-pulsed APCs undergo a sustained [Ca2+]i increase and downregulate their T cell antigen receptors (TCRs) in an antigen dose– and time-dependent fashion, similar to T cells stimulated by conventional ligands. Analysis of TCR Vβ transcripts shows that six independent PjCHOAg-specific T cell clones carry the Vβ8 segment with a conserved motif in the CDR3 region, indicating a structural requirement for recognition of this antigen. Finally, after activation, the CD8+ clones from the atopic patient express CD40L and produce high levels of interleukins 4 and 5, suggesting that the clones may have undergone a Th2-like polarization in vivo. These results reveal a new class of antigens which triggers T cells in an MHC-independent way, and these antigens appear to be carbohydrates. We suggest that this type of antigen may play a role in the immune response in vivo.

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