The development of primed/memory CD8+ lymphocytes in vitro and in rejecting kidneys after transplantation

Abstract

In normal individuals, 80 ±5% of circulating CD8⁺ T cells express CD45RA, and 20 ± 7% of these cells express CD45R0 antigens. After activation, CD8⁺ cells expressing CD45RA decrease to 56–67% while those expressing CD45R0 increase to 38–67%. Although precursors of alloantigen-specific cytotoxic T cells were found in both CD8⁺, CD45RA⁺ and CDS⁺, CD45R0⁺ subsets, the specific effector cells were exclusively CD8⁺, CD45R0⁺, Allospecific cytotoxic CD8⁺ clones were also entirely CD45R0⁺, A lectin-dependent cytotoxic (LDC) assay unmasked a hierarchy of killing after alloactivation which was CD8⁺, CD45R0⁺ > CD8⁺, CD45RA⁺ > CD4⁺, CD45R0⁺ > CD4⁺, CD45RA⁺, The phenotype of CDS⁺ T cells in rejecting kidneys was similar to in vitro alloantigenactivated CDS⁺, CD45R0⁺ cells and cytotoxic CD8⁺ clones. Firstly there was an increase in the relative proportions of CD45R0⁺ (60·8%) and a decrease in CD45RA⁺ (35·10%) CD8⁺ cells relative to circulating CD8⁺ subsets. In the rejecting grafts. 34 ± 9% of the CD8⁺ cells were also DR⁺ indicative of recent activation. Furthermore, 16% (range 4–35%) of rejecting CD8⁺ cells were Ki67⁺ suggesting that these cells were proliferating. Finally, 17% (range 4–53%) of T cells in rejecting kidneys simultaneously expressed both CD45RA and CD45R0 markers. These results show that in vitro alloantigen-activated CD8⁺, CD45R0⁺ cells represent a primed/memory cytotoxic population. In addition, they provide indirect evidence that a proportion of CD8⁺ cells in rejecting kidneys were actively switching from a naive to a memory phenotype in vivo in a manner analogous to that in vitro.