Neisig A, Roelse J, Sijts A J, Ossendorp F, Feltkamp M C, Kast W M, Melief C J, Neefjes J J
Department of Immunohematology and Blood Bank, University Hospital, Leiden, The Netherlands.
J Immunol. 1995 Feb 1;154(3):1273-9.
The MHC-encoded transporter associated with Ag presentation (TAP) translocates peptides from the cytosol to the ER lumen, where association with MHC class I molecules occurs. The MHC class I/peptide complex is subsequently transported to the cell surface for presentation to CD8+T cells. We studied TAP-dependent translocation of defined MHC class I presentable murine peptides by competition for translocation of a radiolabeled model peptide, to address whether efficient peptide presentation by MHC class I molecules is preceded by equal efficient peptide translocation by TAP. Surprisingly, we observed that four immunodominant viral peptides of 16 peptides tested were very inefficiently transported by TAP. Inefficient translocation could be overcome by substitution of a proline residue present at position 3 in the peptides. Furthermore, addition of natural flanking amino acids directly surrounding a poorly transported peptide could considerably improve translocation by TAP. Our data suggest that some peptides are efficiently transported by TAP in their optimal size for MHC class I binding, whereas other peptides are transported as larger peptide fragments that need further trimming in the ER for MHC class I binding.
与抗原呈递相关的主要组织相容性复合体(MHC)编码转运体(TAP)将肽段从胞质溶胶转运至内质网腔,在此处与MHC I类分子结合。随后,MHC I类/肽复合物被转运至细胞表面,以呈递给CD8⁺T细胞。我们通过竞争放射性标记的模型肽段的转运,研究了特定MHC I类可呈递的小鼠肽段的TAP依赖性转运,以探讨MHC I类分子高效呈递肽段之前,TAP是否也能同等高效地转运肽段。令人惊讶的是,我们观察到,在测试的16种肽段中,有4种免疫显性病毒肽段被TAP转运的效率非常低。肽段第3位的脯氨酸残基被取代后,转运效率低下的问题可以得到克服。此外,在转运不佳的肽段周围直接添加天然侧翼氨基酸,可以显著提高TAP的转运效率。我们的数据表明,一些肽段以其与MHC I类结合的最佳大小被TAP有效转运,而其他肽段则作为更大的肽片段被转运,需要在内质网中进一步修剪才能与MHC I类结合。
