Jeffrey Krieger scite author profile

Figure 4Cross-reactivity of GA-reactive T-cell lines is increased after daily injections of GA. Percentages of the GA-induced T-cell lines cross-reacting to each APL tested at each time point are shown for the 7 patients encoded by gray scale. Proliferative IFN-γ and IL-5 responses were examined for all T-cell lines and are represented separately in the top, middle, and lower third. A minimum SI of 2 and a difference of 2 SD over the background was required for classification as a cross-reactive T-cell line.

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Immunological Memory: Contribution of Memory B Cells Expressing Costimulatory Molecules in the Resting State

Bar‐Or

Oliveira

Anderson

et al. 2001

126

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Traditionally, emphasis has been placed on the roles of Th cells in generating and amplifying both cellular and humoral memory responses. Little is known about the potential contributions of B cell subsets to immunological memory. Resting memory B cells have generally been regarded as poor APC, attributed in part to the relative paucity of costimulatory molecules identified on their surface. We describe a novel subpopulation of human memory B cells that express CD80 in their resting state, are poised to secrete particularly large amounts of class switched Igs, and can efficiently present Ag to and activate T cells. This functionally distinct B cell subset may represent an important mechanism by which quiescent human B cells can initiate and propagate rapid and vigorous immune memory responses. Finally, these studies extend recent observations in the murine system and highlight the phenotypic and functional diversity that exists within the human B cell memory compartment.

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Human and Murine CD4 T Cell Reactivity to a Complex Antigen: Recognition of the Synthetic Random Polypeptide Glatiramer Acetate

Duda

Krieger

Schmied

et al. 2000

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The capacity of glatiramer acetate (GA), a random copolymer of alanine, lysine, glutamic acid, and tyrosine to stimulate primary in vitro human and murine T cell proliferation was examined. PBMCs isolated from healthy humans and relapsing remitting multiple sclerosis patients and spleen cells from inbred strains of mice, expressing different H-2 haplotypes, were used as sources of non-GA-primed lymphocytes. GA functioned as a universal Ag, inducing dose-dependent proliferation of all non-GA-primed human and murine T cell populations tested. Moreover, GA stimulated PBMCs derived ex vivo from human cord blood, strongly suggesting that GA can activate both naive and memory T cells. The human T cell proliferative responses to GA were HLA class II DR-restricted by virtue of the ability of anti-class II Ab to inhibit T cell proliferation, and the demonstration that individual GA specific human T cell clones were HLA class II DR-restricted by either restriction element but not both. Furthermore, GA-reactive T cells secreted Th0 cytokines and expressed a diverse repertoire of TCR. Limiting dilution analysis indicated that the T cell precursor frequency among the healthy human adults tested ranged from 1:5,000 to 1:125,000. Given that all of the T cell populations tested were isolated from non-GA-primed donors, it appears that virtually all humans and murine strains contain significant numbers of T cell populations cross-reactive with GA. These findings may explain the recent clinical finding that daily s.c. administration of GA ameliorates the progression of multiple sclerosis.

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Jeffrey Krieger

Glatiramer acetate (Copaxone®) induces degenerate, Th2-polarized immune responses in patients with multiple sclerosis

Immunological Memory: Contribution of Memory B Cells Expressing Costimulatory Molecules in the Resting State

Human and Murine CD4 T Cell Reactivity to a Complex Antigen: Recognition of the Synthetic Random Polypeptide Glatiramer Acetate

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