Jefferies W A, MacPherson G G
Medical Research Council, Cellular Immunology Unit, Oxford.
Eur J Immunol. 1987 Sep;17(9):1257-63. doi: 10.1002/eji.1830170907.
The HLA class I epitope W6/32 is conformationally dependent on both heavy chain and beta 2-microglobulin (beta 2M). Previously, the W6/32 epitope has been detected in humans and other primates as well as from bovine sources. Two controversial reports suggest the W6/32 epitope is constitutively expressed by either normal or transformed murine cells expressing the Db allele. Here we show that the appearance of the W6/32 epitope in murine cells results from the association of either the Db or Kd gene products with either bovine or human beta 2M. We use congenic mouse strains and hybrid H-2 class I genes between Db and Kb to map the W6/32 epitope to particular amino acid residues in the alpha 2 domain. Subsequently, we show that beta 2M exchange is not confined to murine or human cells in vitro but can be detected after beta 2M injection into a mouse. The data presented suggests that beta 2M exchange takes place at the cell surface under physiological conditions and indicates that MHC class I heavy chains are in an equilibrium between the bound and unbound form of beta 2M.
HLA I类表位W6/32在构象上依赖于重链和β2-微球蛋白(β2M)。此前,已在人类和其他灵长类动物以及牛源中检测到W6/32表位。两篇有争议的报告表明,表达Db等位基因的正常或转化鼠细胞组成性表达W6/32表位。在此我们表明,鼠细胞中W6/32表位的出现是由于Db或Kd基因产物与牛或人β2M的结合。我们使用同基因小鼠品系以及Db和Kb之间的杂交H-2 I类基因,将W6/32表位定位到α2结构域中的特定氨基酸残基。随后,我们表明β2M交换不仅在体外的鼠细胞或人细胞中发生,在将β2M注射到小鼠体内后也能检测到。所呈现的数据表明,β2M交换在生理条件下于细胞表面发生,这表明MHC I类重链在β2M的结合形式和未结合形式之间处于平衡状态。