The murine T cell proliferative response to the carboxyl terminal cyanogen bromide cleavage fragment 81-104 of pigeon cytochrome c (cyt) has been studied. Two interesting properties of this response have been previously described. First, T cells from B10.A mice primed with pigeon cyt 81-104 show more vigorous proliferation when restimulated with moth cyt 81-103 than when stimulated with pigeon cyt 81-104; that is, the B10.A T cell response to pigeon shows heteroclitic restimulation by moth. Second, T cells primed with the acetimidyl derivative (Am) of pigeon cyt 81-104 did not cross-react with the unmodified cyt fragments, but Am-moth cyt 81-103 still stimulated Am-pigeon cyt 81-104 primed T cells better than the Am-pigeon cyt 81-104 fragment. These results raised the issue of whether the antigenic sites on the fragments responsible for the specificity of T cell priming in vivo differed from the residues that contributed to the heteroclitic response of pigeon (or Am pigeon)-primed T cells to moth cyt c fragments. In this paper, synthetic peptide antigens were tested in order to identify which residues caused the heterocliticity of the moth fragment and which residues were involved in the antigenic differentiation of native and derivatized fragments. The heterocliticity of the T cell response to moth fragment 81-103 was found to be due to the deletion of the penultimate residue (Ala103) from the pigeon fragment. However, the ability to cause heterocliticity was not uniquely a property of this deletion. T cells from animals primed with peptides containing substitutions at positions 100 or 102 were also heteroclitically stimulated by the moth-like antigen. The observation that T cells could not be primed for recognition of the changes in peptide sequence that caused heteroclitic stimulation suggests that T cells do not directly recognize determinants in this region. The antigenically significant site of derivatization for T cell priming was found to be Lys99. Furthermore, substitution of a Gln at position 99 also resulted in elicitation of yet a third set of T cell clones specific for the presence of that residue. That is, the specificity of the primed T cell population was found to be altered by changes at residue-99, but no such alterations in specificity were demonstrable when T cells primed with peptides altered at residue-103, residue-102, or residue-100 were compared. Overall, the results demonstrate that the antigen can be divided into two functionally distinct sites that are in close physical proximity.
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Zookeys
September 2023
School of Life Sciences, Guizhou Normal University, Guiyang 550025, Guizhou, China.
In this work, a new species of the genus is described, named Yu, Luo, Lan, Xiao & Zhou, , collected from the Damingshan Mountains of the Guangxi Zhuang Autonomous Region, China. Phylogenetic trees constructed based on the mitochondrial Cyt showed that the new species represents an independent evolutionary lineage, with uncorrected genetic distances (-distance) from congeners ranging from 6.1% to 8.
View Article and Find Full Text PDFJ Immunol
October 1996
Department of Medicine, Yale University School of Medicine, New Haven, CT 06520-8031, USA.
This study examines the role of B cells as auto-APCs in activating autoimmune T cells responses. Mice immunized with their own cytochrome c (cyt c) elicit no detectable B or T cell responses. However, mice first primed with a cryptic self peptide, mouse cyt c 81-104, followed at 3 wk with a boost of whole cyt c, elicit autoreactive T cells specific to self cyt c.
View Article and Find Full Text PDFJ Exp Med
February 1993
Department of Internal Medicine, Yale University School of Medicine, New Haven, Connecticut 06510.
It is now clear that antigen presenting cells (APCs) do not present all the possible peptides of self-proteins to the immune system. When then, is the fate of T cells specific for those self-peptides that escape processing? In this study, the COOH-terminal peptide (residues 81-104) of self cytochrome c (cyt c) elicited strong autoimmune T cells, as well as autoantibodies specific for this immunogen. These T cells did not respond to stimulation with the whole self cyt c molecule, demonstrating that APCs cannot process and present the self 81-104 peptide.
View Article and Find Full Text PDFJ Immunol
August 1992
Department of Medicine, Yale University School of Medicine, New Haven, CT 06510.
The initiation of autoimmune B cell and T cell responses by self Ag or by foreign pathogens (molecular mimics) is not well understood. In the present study, cytochrome c (cyt c) was used as a model autoantigen to investigate how self-proteins are involved in the priming of autoimmune T cell responses. Immunization with foreign cyt c has been extensively analyzed in previous studies as a model for both humoral and cellular immune responses.
View Article and Find Full Text PDFEur J Immunol
January 1991
Department of Microbiology, University of Minnesota Medical School, Minneapolis 55455.
A monoclonal antibody (mAb) specific for the 93-104 segment of pigeon cytochrome c (cyt) was shown to block interleukin 2 production and proliferation by pigeon cyt-specific T cells in response to the pigeon cyt 81-104 peptide using either the LK35.2 B cell hybridoma or normal splenocytes as antigen-presenting cells (APC). The mAb inhibited the response to soluble peptide antigen presented by metabolically inactive paraformaldehyde-fixed APC but not the response to APC that were pre-pulsed with Ag.
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