Acquisition of Ig isotype diversity after bone marrow transplantation in adults. A recapitulation of normal B cell ontogeny.

Abstract

To gain insight into the prolonged susceptibility to infections noted after allogeneic bone marrow transplantation (BMT), multiple parameters of the humoral immune system were serially monitored in ten bone marrow recipients. IgM B cells appeared in the circulation 2 to 4 mo after engraftment. During the first 6 mo, the IgM B cells expressed low levels of CD21 (C3d/EBV receptors) and were largely CD38+. IgG and IgA B cells were also found to coexpress surface IgM and IgD, indicating that they may be involved in a process of isotype switch. These features are characteristic of neonatal B cells. To explore the pattern of Ig isotype switch, the emergence of plasma cell precursors for each of the four IgG subclasses was examined by culturing blood lymphocytes with PWM or LPS and enumerating bone marrow plasma cells. A marked IgG2 and IgG4 plasma cell deficiency and a relative increase in IgG1 and IgG3 plasma cells were detected both in vitro and in vivo. Serum IgG2 and IgG4 levels were deficient for more than 18 mo after BMT, elevated IgG1 levels accounting for the normal or increased levels of total IgG. The data suggest that a selective unresponsiveness to polysaccharide Ag and IgG2 subclass deficiency may contribute to the late bacterial infections in BMT recipients. These features of gradual development of the humoral immune system in adults undergoing successful marrow engraftment reproduce some of the maturational steps that occur during normal B cell ontogeny over the first 1 to 2 yr of life.