Immune processing of proteolipid protein by subsets of antigen-presenting spleen cells

Academic Article

Abstract

  • Myelin proteolipid protein (PLP) contains one established antigenic epitope within the 131-151 amino acid sequence, with encephalitogenic activity for SJL mice (PLP139-151). In the current study, the processing and presentation of PLP by subsets of splenic antigen-presenting cells (APC) were examined by comparing their capacity to stimulate PLP-responsive T-cell clones, two of which are specific for PLP139-151, and one which is not specific for this peptide. In order to study whether PLP requires processing before its presentation by APC, PLP-pulsed and fixed APC were shown to stimulate PLP-specific T cells. However, the addition of PLP to unpulsed, fixed APC resulted in the absence of T-cell stimulation, while the ability of these fixed APC to bind antigenic peptide and efficiently present it to T cells, was demonstrated by their ability to use a synthetic peptide for the stimulation of the T cells. In order to study potentially different processing efficiencies among APC subsets, spleen cells were fractionated by adherence to plastic, and their respective APC activities were studied separately. The non-adherent (NAd) APC were unable to stimulate PLP139-151 specific T-cell clones with PLP as antigen. In contrast, a T-cell clone specific for a separate, but unidentified epitope on PLP was stimulated by NAd APC efficiently. In addition, stimulation of PLP139-151-specific T-cell clones by NAd APC did occur when the synthetic peptide instead of intact PLP was used as antigen, indicating a defect in PLP processing by the NAd APC. These results indicate that a subpopulation of splenic APC is unable to process PLP efficiently, and more specifically, may be unable to process a fragment containing the 139-151 sequence in PLP, while other antigenic fragments may be processed and subsequently presented efficiently. © 1992.
  • Authors

    Published In

    Digital Object Identifier (doi)

    Author List

  • van der Veen RC; Trotter JL; Kapp JA
  • Start Page

  • 139
  • End Page

  • 146
  • Volume

  • 38
  • Issue

  • 1-2