Key Points• Children with primary MDS should be tested for GATA2 mutations, regardless of karyotype, family history, or features of GATA2 deficiency.• Screening children with GATA2-MDS for somatic mutations may reveal mutations predictive of clinical outcomes.Approximately 10% of children with primary myelodysplastic syndrome (MDS) have germ line GATA2 mutations, leading to the proposal that all children with primary MDS and certain cytogenetic findings, including monosomy 7, be tested for germ line GATA2 mutations regardless of family history or other clinical features associated with GATA2 deficiency. In adults with familial GATA2-MDS, those with somatic mutations in ASXL1 experience rapid disease progression to acute myeloid leukemia (AML) and poor prognosis after stem cell transplantation; however, the prevalence of somatic mutations in primary pediatric GATA2-MDS is unclear. Here, we studied a cohort of 8 pediatric patients with MDS and lacking additional GATA2-associated clinical features or significant family history and identified heterozygous germ line GATA2 mutations in 5 patients, including 1 with a normal karyotype. For those with GATA2-MDS, we screened for somatic mutations in genes with prognostic relevance in AML/MDS, using a targeted next-generation sequencing panel.Although no somatic mutations in ASXL1 were observed, somatic mutations were found in RUNX1, SETBP1, IKZF1, and CRLF2. One subject with deleterious mutations in RUNX1, SETBP1, and IKZF1 rapidly progressed to AML with disease that was refractory to treatment.Our findings confirm the importance of GATA2 testing in primary pediatric MDS, even in the absence of other clinical features of GATA2 deficiency. Further, similar to what has been observed in adults with GATA2-MDS, somatic mutations with potential prognostic effect occur in children with MDS associated with mutations in GATA2.
Programmed cell death 1 (PD-1) and programmed cell death ligand 1 (PD-L1) are immunomodulatory molecules overexpressed in lymphomas and are promising immunotherapy targets for hematologic malignancies. However, studies of PD-1/PD-L1 overexpression and their clinical significance in aggressive pediatric non-Hodgkin lymphomas (NHLs) are limited. We assessed PD-1/PD-L1 overexpression using immunohistochemistry in 68 aggressive pediatric NHLs: ALK-positive anaplastic large cell lymphoma (ALK+ ALCL, n=8), Burkitt lymphoma (BL, n=27), and large B-cell lymphoma (LBCL) [de novo LBCL (n=22) and diffuse LBCL arising as monomorphic post-transplant lymphoproliferative disorder (PTLD-DLBCL, n=11)]. In LBCL, correlations between PD-L1 overexpression and Epstein-Barr virus (EBV) status, cell of origin, stage, nodal status, overall survival (OS), and event-free survival (EFS) were examined. The genetic mechanisms of PD-L1 overexpression were investigated using targeted nextgeneration sequencing (NGS) and cytogenetic data. All ALK+ ALCL samples, 50.0% of de novo LBCLs (11/22), 72.7% of PTLD-DLBCLs (8/11), and no BLs overexpressed PD-L1. Overexpressed PD-L1 correlated with EBV-positivity (p=0.033) in LBCLs and lower EFS in de novo LBCL (p=0.017). NGS of select LBCLs revealed distinct somatic mutations and an ultrahypermutated PTLD-DLBCL. Most cases with 9p24.1 copy gains overexpressed PD-L1 although some cases had no discernible genetic drivers of PD-L1 overexpression. Overexpressed PD-L1 is common in pediatric LBCL, associated with EBV-positivity and 9p24.1 gains, and may have prognostic significance in de novo LBCL. Furthermore, diverse molecular mechanisms for PD-L1 overexpression in aggressive pediatric NHL can occur. Thus, additional studies exploring the therapeutic and prognostic significance and molecular mechanisms of PD-L1 overexpression in aggressive pediatric NHLs are warranted.
Background
Hemophagocytic lymphohistiocytosis (HLH) is characterized by hyperinflammation and life-threatening cytopenias. Survival is poor, and management is pivotal on rapid identification of the disease. HLH is associated with hematologic malignancies, however correlation with myelodysplastic syndromes (MDS) is exceedingly unusual. Although minimizing overwhelming hyperinflammation by treating hemophagocytosis are central for HLH outcome, there is urgent necessity to identify potential initiating mechanisms that could assist in therapy design.
Case description
Here, we describe an elderly African American patient who developed rapid onset of cytopenias and coagulopathy associated with hepatic and bone marrow hemophagocytosis. We analyze four additional similar cases to isolate clinical, laboratory and cytogenetic findings expected in patients exhibiting concurrent HLH and MDS. HLH linked with MDS retains common HLH features associated with systemic hyperinflammation such as fever, hypotension, hepatosplenomegaly, hyperferritinemia, coagulopathy and rapidly evolving cytopenias. Typical MDS chromosomic abnormality such as trisomy 8 was frequently observed in our studied cases.
Conclusion
Our case describes difficulties while managing HLH in MDS patients. Diagnosis should be based on identifying HLH appropriate criteria and if possible karyotypic abnormalities normally observed in MDS.
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