Follicular lymphoma (FL) involving the spleen must be distinguished from reactive hyperplasia and from other lymphomas. A prior study reported that splenic FLs frequently lack BCL2 expression, further complicating diagnosis. We examined 16 cases of splenic FL, including 12 cases initially diagnosed at splenectomy. Two morphologic patterns were identified: one with architectural abnormalities (AA) and one with an extensive architectural preservation (AP) pattern. Newly diagnosed AP cases were associated with older age (P = .051) and grade 1 histologic features (P = .023). All cases displayed a CD10+/BCL2+ phenotype. Cytogenetics and FISH identified IGH/BCL2 or BCL6 translocations in all tested cases. Splenic FLs display phenotypic and cytogenetic findings similar to nodal FLs. However, splenic FLs frequently display an exclusively intrafollicular growth pattern resembling so-called in situ FL. Recognition of subtle FL with preserved architecture is important because patients may have overt FL at other sites or the FL may progress to overt nodal disease.
Flow cytometry immunophenotyping has been suggested as an adjunctive technique in the evaluation of myeloid malignancies, especially in the myelodysplastic syndromes. However, its use has been limited due to complexity and cost restraints. The goal of this study is to attempt a simpler approach to flow cytometry immunophenotyping in myeloid neoplasms.We analyzed bone marrow specimens of 45 selected patients and an additional 99 consecutive random patients using a limited antibody panel.Normal CD34-positive blasts show a characteristic pattern of CD13/HLA-DR expression, with three readily identifiable subpopulations. In contrast, myeloid neoplasms frequently show loss of this heterogeneity.Analysis of a limited antibody panel with a focus on CD13/HLA-DR expression provides relatively high specificity and sensitivity for the detection of myeloid neoplasms.
Objective We describe a 38‐year‐old woman who presented with a history of inflammatory arthritis, rash, and daily fevers. She was noted to have chronic parvovirus infection with persistently detectable viral titers and a novel mutation in the ELANE gene. ELANE encodes neutrophil elastase, a neutrophil serine protease with important antimicrobial effects, and is found as part of neutrophil extracellular trap (NET) complexes. Pathogenic ELANE mutations have been identified in forms of hereditary neutropenia. However, our patient never had neutropenia. Because of the striking clinical scenario, we investigated this mutation functionally. Methods NET formation by neutrophils was assessed by scanning electron microscopy. Neutrophil activation and neutrophil elastase production were evaluated by flow cytometry and fluorescent substrate–based functional assay, respectively. A multiplex assay was used to quantitate neutrophil inflammatory cytokine production. PyMOL software was used to generate 3‐dimensional models of mutant elastase. Results Activated neutrophils from the patient demonstrated a significantly decreased ability to form NETs on scanning electron microscopy, as well as quantitative defects in neutrophil activation and neutrophil elastase activity. The patient's neutrophils showed altered levels of interleukin‐12 (IL‐12) and IL‐8, which are key cytokines for antiviral immunity and neutrophil chemotaxis. Three‐dimensional mapping revealed that the mutation could alter protein folding and surface charge distribution, potentially perturbing protein trafficking. Thus, the mutation could affect neutrophil function by decreasing NETosis and altering key antiviral activities of neutrophils. Conclusion This is the first report of a human pathogenic ELANE mutation associated with a defect in NETosis and a distinct syndrome of recurrent viral infection and chronic inflammation.
T-cell large granular lymphocyte leukemia (T-LGLL) is a T-cell lymphoproliferative disorder that has recently been associated with B-cell dyscrasias on a spectrum ranging from dysgammaglobulinemia to lymphoma. To investigate the relationship between clonal B-cell and LGLL lymphoproliferations, we systematically studied lymphocytes in 57 patients with T-LGLL or NK lymphocytosis using flow cytometric methods sensitive to low-level B-cell populations. We identified 16 patients (28%) with abnormal B-cell populations; 9 (16%) of the patients had no known history of a B-cell lymphoproliferative disorder. We characterized these abnormal B-cell populations as monoclonal B-cell lymphocytosis and report a high frequency of monoclonal B-cell lymphocytosis in T/NK LGLL. Our findings suggest that certain pathologic factors may operate in patients with T/NK LGLL to drive low-level clonal B-cell proliferations.
