Abstract
Several thymus cell subclasses may be defined on the basis of their sedimentation velocity, their light-scattering properties (a measure of cell volume), or binding of a fluoresceinated anti-Thy 1.2 antiserum. Using a multiparameter fluorescence-activated cell sorter (FACS), cells with distinguishable light-scattering or fluorescence intensity (after staining with fluorescein anti-Thy 1.2) were separable for analysis of intrathymic maturation pathways. Outer thymic cortical large and medium lymphocytes were the only cells labeled within 1 hr after transcapsular diffusion of administered [ 3H]thymidine. These labeled cells were also entirely contained in the brightest fluorescence intensity (with fluorescein anti-Thy 1.2) subclass. Under conditions of [ 1H] thymidine “chase” in vivo, label shifted proportionately and apparently in parallel to three “mature” subclasses: (1) small thymocytes with high surface concentrations of Thy 1.2, representing ~ 80% of all thymus cells; (2) slightly larger cells, with very low surface Thy 1.2, which are indistinguishable from cortisone-resistant thymocytes, and which make up less than 10% of all thymus cells; (3) dead or fragile cells.
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