Quantitation of the T cell deficiency in RFM mice with host versus graft disease

Abstract

Host versus graft (HVG) syndrome is the fatal complex of lesions which has been observed in six inbred strains of mice following the perinatal inoculation of related F 1 hybrid spleen cells. Morphological studies have indicated that the key lesion is the depletion of peripheral T lymphocytes due to inflammatory destruction and failure of the thymus to replace them. In the present studies, tests of T-cell function were done on RFM mice, which had developed HVG disease following perinatal inoculations of (T 6 × RFM)F 1 spleen cells. As compared to control values, HVG spleen cell suspensions showed loss of reactivity to phytohemagglutinin (PHA) = 90%, to concanavalin A (Con A) = 94%, to (T 6 × RFM)F, cells in the mixed lymphocyte reaction (MLR) = 82%, to DBA cells in MLR = 94%, and to DBA mastocytoma cells in cell-mediated lympholysis (CML) = 95%. Lymph node cell suspensions showed losses of reactivity to PHA = 83%, to Con A = 62%, to (T 6 × RFM)F 1 cells in the MLR = 91%, and to DBA cells in the MLR = 77%. The CML activity of nodal cells to DBA mastocytoma cells varied widely from 12 to 273% of control values, and averaged 121%. Filtration of HVG spleen cells through nylon fiber columns failed to restore low responses to PHA to normal values. This suggested that the macrophage-like, adherent accessory cells were not acting as suppressors of T-cell responses in HVG disease. The deficits in all T-cell-mediated functions tested so far, appeared to correlate very well with quantitative morphological studies which showed the loss of 98% of the small lymphocytes normally present in the thymic dependent portions of the splenic white pulp. It is suggested that experimental HVG disease may serve as a model for immunodeficiency syndromes of the Nezelof type which are also characterized by T-cell deficiency, poor primary antibody responses, and the presence of variable amounts of serum immunoglobulins.