Abstract
Genetic defects in IL2RG or JAK3 can cause the phenotype of severe combined immunodeficiency (SCID) with absent T- and non-functional B-lymphocytes (T-B+ SCID). B cell function and the need for immunoglobulin replacement therapy after hematopoietic stem cell transplantation (HSCT) depends on the engraftment of donor B-lymphocytes. In a retrospective study we describe B-lymphocyte reconstitution after HSCT with the aim to identify B cell subpopulations as an early predictor for the maturation and function of B cells after HSCT. All patients included underwent HSCT in a single institution between 1980 and 2017. First, we studied B cell maturation in cryopreserved blood samples of 12 patients with B+ SCID (IL2RG-deficiency) after haploidentical HSCT presenting with mixed B cell chimerism. Recipient and donor B cell subpopulations were identified by HLA-staining using flow cytometry. In a consecutive step we compared B cell subpopulations irrespective of chimerism between patients with or without post-transplant B cell function. Samples for this study were obtained between day + 90 to + 250 after HSCT from 25 post-transplant long-term survivors with B-positive SCID (9 with genetic variants in JAK3, 16 in IL2RG), 9/25 were dependent and 16/25 independent of immunoglobulin (Ig) -substitution. We demonstrate that a proportion of less than 2% of donor B cells can be sufficient for posttransplant B cell function and that a proportion of more than 4.7% of switched memory (IgM-) B cells in the memory B cell population (CD19 + CD27+) between days + 90 and + 250 after HSCT correlates with normal B cell function and independence from immunoglobulin substitution. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s10875-026-02004-2.