The activation state of T and B lymphocytes in the peripheral blood of periodontitis patients may be a reflection of disease activity. We have utilized 2- and 3-color flow cytometric analyses using a new chromophore, peridinin chlorophyll A protein, and conventional dyes, fluorescein isothiocyanate and phycoerythrin, conjugated to monoclonal antibodies against activated lymphocyte surface markers to measure blood lymphocyte subsets from 18 periodontitis patients and 16 periodontally healthy control subjects. Two-color flow cytometric analysis demonstrated that the frequency of CD4+ and CD5+ T cells, CD20+ B cells, and CD16+ NK (natural killer) cells were increased in periodontitis patients. Of particular interest, CD4+ activated "memory" T cells, CD5+ B cells, and CD56+ NK effector cells were increased significantly in periodontitis patients (p less than 0.05). While the relationship of lymphocyte activation to periodontal disease activity remains unclear, there may be potential for using 2- and 3-color flow cytometry to subcategorize periodontitis patients into high- and moderate-risk groups.
The fluorescent dye, Peridinin chlorophyll A protein (PerCP) derived from dinoflagellate organisms (Glenodinium sp.) can be excited by a 488 nm laser and emits light with a large Stokes shift and no major spectral overlap with commonly used chromophores such as fluorescein isothiocyanate (FITC) and R-phycoerythrin (PE). PerCP was conjugated directly to various mouse monoclonal antibodies (mAb) specific for human leukocyte markers or to avidin for use with biotinylated-mAb, and used to perform three color single-laser flow cytometry. The efficacy of this method was demonstrated by analyzing the heterogeneity of thymus T lineage subsets and B lymphocyte subsets in blood. CD4-CD8-, CD4+CD8+ and CD4+CD8- or CD4-CD8+ subsets differ in their expression of cell-cell interaction markers including CD18, CD28, CD44 and Leu 8, and activation/subset markers CD45RO, CD45RA and CD26. Some CD5+ peripheral blood B cells, unlike CD5-B cells, expressed CD45RO or high levels of CD54 (ICAM-1) suggesting the CD5+ B cell population contains activated lymphocytes. The availability of such an accessible method for three color analysis will make it possible to do routine three color monitoring of immunologic diseases such as AIDS, and autoimmune or periodontal diseases.
In order to characterize macaque T-lymphocyte subsets, we used a chromophore from a dinoflagellate, peridinin chlorophyll A protein (PerCP), which, like fluorescein isothiocyanate (FITC) and R-phycoerythrin (PE), can be excited by a 488-nm laser and emits light at 670 nm without spectral overlap with FITC and PE. Mouse monoclonal antibodies were conjugated with FITC, PE, and PerCP to detect CD4+ and CD8+ cells in macaque peripheral blood lymphocytes (PBL) subsets before and after activation and in nonactivated thymocytes. Resting and activated macaque blood CD4+ T-cells could be clearly delineated into discrete subsets with either CD28, CD45RA, or CD45RO as a second marker and CD26, CD29, CD44, or CD69 as a third marker. CD8+ cells were further subdivided by expression of similar combinations of markers. A subset of CD8+ CD28- T-cells in blood expressed the activation marker CD69, suggesting that they were already activated. Virtually all CD4+CD8+, CD4+CD8-, and CD4-CD8+ macaque thymocytes expressed CD2, CD3, and CD18 and not CD25, CD44, or CD45O, but macaque thymocyte subpopulations did differ in their expression of CD28 and CD29. The expression of T-cell receptor (TCR) subgroups on macaque PBL and thymocytes was analyzed before and after activation with staphylococcal enterotoxins (superantigens). The pattern of T-cell variable-region expression in macaques was similar to that seen in humans, with a high frequency of T cells expressing V beta 8. After superantigen stimulation, only minor changes in TCR V beta expression were detectable in PBL. A dramatic increase in V beta 8 expression was seen after stimulation of macaque thymus with staphylococcal enterotoxin D (SE-D), a minor increase after toxic shock syndrome toxin 1 (TSST-1) stimulation, and a simultaneous decrease in V beta 6 levels.
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