Biophysical characterization of peyer’s patch lymphocytes in the B-cell deficient CBA/N mice and in their F1 hybrids

Abstract

CBA/N mice bear an X-linked immunodeficiency involving abnormalities of their B lymphocytes. We investigated the electrophoretic mobility (EPM) distribution and the electronic volume of the Peyer's patch (PP) cells of these mice in comparison with those of the immunologically normal CBA/J mice. The same studies were also carried out on PP cells from the CBA/N×DBA/2 (CND2) F1 hybrid males and females that are, respectively, B-cell defective and normal. In all types of mice, PP cells could be separated by free-flow electrophoresis into a low-mobility (LM) population corresponding mainly to B cells and high-mobility (HM) population containing mostly T cells. However, while in the control mice LM (B) cells accounted for around 60–67% of PP lymphocytes, this population did not exceed 40% in the defective animals. Furthermore, LM (B) cells, but not HM (T) cells, of CBA/N and CND2 male mice were found to display abnormal physical characteristics. Thus, they possessed a higher anodic EPM (two electrophoretic fractions faster) and a slightly larger model size (134 μm3) than normal adult B cells (122–124 μm3). Similar differences were observed with PP lymphocyte preparations enriched for B cells by nylon wool adherence. These data suggest that CBA/N mice and their defective hybrids lack a population of small B lymphocytes with low anodic EPM.