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  • Title: Mechanism of anti-DNA antibody formation. The functional modulation of helper T-subset plays the key role in both murine and human B-cell autosensitization.
    Author: Nakamura K, Akahoshi T, Kashiwazaki S.
    Journal: Microbiol Immunol; 1986; 30(7):703-15. PubMed ID: 2945981.
    Abstract:
    The mechanism(s) of anti-DNA antibody formation was comparatively investigated using in vitro human and murine B-cell culture systems. T-cell homogenate (TH) from SLE patients converted normal human B-cells to anti-DNA specific antibody-forming plasma cells (anti-DNA-SPC) when cultured with calf thymic native DNA as antigen. TH of normal human donors suppressed the formation of anti-DNA-SPC from normal human B-cell cultures even when SLE TH and DNA were added to the cultures. B-cells derived from SLE patients were insensitive to normal human TH, and resulted in the formation of many anti-DNA-SPC. TH of young and old NZB mice stimulated the formation of anti-DNA-SPC from not only NZB but also C57BL/6 murine bone marrow cultures in the presence of DNA antigen. Human and murine TH, and both B-cell cultures were reciprocally combined to test whether xenogeneic TH stimulated B-cell cultures from different species. Xenogeneic TH was effective in triggering differentiation of xenogeneic B-cells with respect to anti-DNA-SPC. The elimination of helper T-subsets (Th) resulted in the generation of fewer anti-DNA-SPC, whereas the elimination of suppressor T-subsets (Ts) caused the formation of many anti-DNA-SPC. Among organ homogenates, e.g., liver, kidney and, brain, and T-cells from old NZB mice, TH was most effective in the stimulation of anti-DNA-SPC. The effective substance was sensitive to RNase-A, but resistant to pronase and DNase-I. Phenol extracted T-cell RNA retained its activity. We concluded that the functional modulation of helper T-cells, which reflects RNA molecules, could be the main etiology of autoantibody formation against DNA by both human and murine B-cells.
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