Membrane CD45R isoform exchange on CD4 T cells is rapid, frequent and dynamic in vivo

Abstract

CD4 T cells bearing high (240–190 kDa) and low (180 kDa) molecular mass isoforms of the leukocyte common antigen CD45 define functionally distinct subsets which have been equated with naive and memory T cells. In the rat, CD4 T cells expressing a high molecular mass isoform [identified by monoclonal antibody MRC-OX22 (anti-CD45RC)] exchange this for the 180 kDa molecule (CD45RC⁻) when stimulated by antigen. Here we show, by transferring mature allotype-marked CD45RC⁻ CD4 T cells (depleted of immature Thy-1⁺ CD45RC⁻ recent thymic emigrants) into normal euthymic recipients, that many T cells re-express the high molecular mass isoform in less than 6 h. By 24 h, 30–60% of CD45RC⁻ CD4 T cells became CD45RC⁺; within a week the entire cohort appeared to exchange the low for the high molecular mass isoform. Isoform exchange was dynamic and many CD4 T cells returned once again to the CD45RC⁻ state. CD45RC⁻ CD4 T cells declined in number more rapidly than the CD45RC⁺ subset after transfer. The results suggest that CD45R isoforms distinguish between resting T cells (CD45RC⁺) and those which have encountered antigen in the recent past. CD45R isoforms would appear to be unsuitable markers of naive and memory T cells.