presence of compensatory mechanisms at multiple levels capable of (partially) surmounting the IKAROS defect. 8,9 The actions of modifier genes, epigenetic changes, and/or environmental exposures might affect these compensatory mechanisms in different ways, which could, in part, explain the phenotypic heterogeneity in IKAROS-haploinsufficient patients. 8,9 Disease-influencing mechanisms in IKZF1-associated immunodeficiency await further study. In conclusion, we report on the first truncating IKZF1 mutation associated with IKAROS haploinsufficiency and illustrate an unexpectedly late and variable block in central and peripheral B-cell development in 2 patients and their asymptomatic mother. Given the observed immunologic abnormalities, we recommend close follow-up of asymptomatic IKZF1 mutation carriers.
Introduction Post-transplant lymphoproliferative disorders (PTLDs) comprise a heterogeneous group of Epstein-Barr virus (EBV)-positive or negative lymphoid or plasmacytic lesions in solid organ or hematopoietic stem cell (HSC) transplant recipients. Although PTLDs in adults have been extensively studied, the clinicopathologic features of monomorphic B-cell PTLD in children, particularly EBV-negative forms, are still poorly understood. Methods We retrospectively reviewed all our pediatric cases of monomorphic B-cell PTLDs diagnosed in the past 10 years. Clinical data were reviewed. Pathologic data including histologic types and EBV status were analyzed. Additional immunohistochemical stains, FISH studies, and TP53 gene mutational status were performed. Results 4 of 18 cases were EBV-negative. All 4 EBV-negative cases were strikingly confined to the gastrointestinal (GI) tract or abdominal lymph nodes, while tumors in EBV-positive cases were found at various anatomic sites; 2 of 4 EBV-negative cases carried mutations in TP53 gene. Our cohort also included 2 rare types of PTLD, one plasmablastic lymphoma and one high-grade B-cell lymphoma, not otherwise specified (HGBL, NOS). Conclusion We report that monomorphic B-cell PTLDs in children have distinctive clinical and pathological features. More studies are needed to clarify whether and how much these pediatric PTLDs differ from their adult counterparts.
T-cell therapy–related acute lymphoblastic leukemia (T-t-ALL) is a rare condition associated with previous cytotoxic therapy for another disease. Here we report T-t-ALL with inv(11)(q21q23), which involves KMT2A and MAML2, a transcriptional coactivator of NOTCH proteins, that occurred after chemotherapy for Philadelphia chromosome–positive B-cell acute lymphoblastic leukemia. This case describes the youngest patient with T-t-ALL harboring inv(11)(q21q23) and is the first independent report following an initial series also occurring in children. Our results lend further support to the observation that the KMT2A-MAML2 fusion gene resulting from inv(11)(q21q23) is likely a recurrent cytogenetic abnormality in T-t-ALL and appears to be associated with pediatric cases.
SLAM-associated protein (SAP) is an adaptor molecule that facilitates critical effector functions in immune cells, and its deficiency causes X-linked lymphoproliferative disease type 1 in which effector responses directed against EBV are severely compromised. The primary objective of this study was to phenotypically and functionally characterize a rare, CD8 T cell-restricted bimodal SAP expression pattern observed in healthy, human donors with the widely used 1C9-SAP mAb clone. We initially observed this pattern during the clinical validation of our flow cytometry-based assay to diagnose X-linked lymphoproliferative disease type 1 in our laboratory. For this validation study, we used multiparameter flow cytometry to identify cytosolic SAP expression in lymphocyte subsets, and CD8 T cells from the donors displaying the rare SAP expression pattern mentioned above were separately further evaluated by intracellular cytokine and CD107a staining to examine polyfunctionality following PMA/ionomycin and HLA class I allele-restricted EBV peptide epitope-induced T cell activation. Our data revealed that SAP 1C9-hi CD8 T cells clearly displayed higher polyfunctional responses versus SAP 1C9-lo CD8 T cells following PMA/ionomycin stimulation. Furthermore, polyfunctional EBV-specific CD8 T cell responses segregated with the SAP 1C9-hi CD8 T cells and not the SAP 1C9-lo CD8 T cells. Additionally, and rather intriguingly, short-and long-term T cell stimulation selectively diminished the signal for the 1C9-hi subset. Overall, our data suggest that although rare, this unique SAP expression pattern merits further evaluation as it has the potential to provide some insight into fundamental processes as they might relate to host-pathogen dynamics. ImmunoHorizons, 2020, 4: 153-164.
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