Plasmablastic lymphoma was initially described as a variant of diffuse large B-cell lymphoma (DLBCL) involving the oral cavity of HIV+ patients and characterized by immunoblastic morphology and a plasma cell phenotype. However, other lymphomas may exhibit similar morphologic and immunophenotypic features. To determine the significance of plasmablastic differentiation in DLBCL and examine the heterogeneity of lymphomas with these characteristics, we examined 50 DLBCLs with low/absent CD20/CD79a and an immunophenotype indicative of terminal B-cell differentiation (MUM1/CD38/CD138/EMA-positive). We were able to define several distinct subgroups. Twenty-three tumors were classified as plasmablastic lymphoma of the oral mucosa type and showed a monomorphic population of immunoblasts with no or minimal plasmacytic differentiation. Most patients were HIV+ and EBV was positive in 74%. Eleven (48%) cases presented in the oral mucosa, but the remaining presented in other extranodal (39%) or nodal (13%) sites. Sixteen cases were classified as plasmablastic lymphoma with plasmacytic differentiation. These were composed predominantly of immunoblasts and plasmablasts, but in addition exhibited more differentiation to mature plasma cells. Only 33% were HIV+, EBV was detected in 62%, and 44% had nodal presentation. Nine cases, morphologically indistinguishable from the previous group, were secondary extramedullary plasmablastic tumors occurring in patients with prior or synchronous plasma cell neoplasms, classified as multiple myeloma in 7 of the 9. Two additional neoplasms were an HHV-8+ extracavitary variant of primary effusion lymphoma and an ALK+ DLBCL. HHV-8 was examined in 39 additional cases, and was negative in all. In conclusion, DLBCLs with plasmablastic differentiation are a heterogeneous group of neoplasms with different clinicopathological characteristics that may correspond to different entities.
The tumor microenvironment plays an important role in the biologic behavior of follicular lymphoma (FL), but the specific cell subsets involved in this regulation are unknown. To determine the impact of FOXP3-positive regulatory T cells (Tregs) in the progression and outcome of FL patients, we examined samples from 97 patients at diagnosis and 37 at first relapse with an anti-FOXP3 monoclonal antibody. Tregs were quantified using computerized image analysis. The median overall survival (OS) of the series was 9.9 years, and the FL International Prognostic Index (FLIPI) was prognostically significant. The median Treg percentage at diagnosis was 10.5%. Overall, 49 patients had more than 10% Tregs, 30 between 5% to 10%, and 19 less than 5%, with a 5-year OS of 80%, 74%, and 50%, respectively (P ؍ .001). Patients with very low numbers of Tregs (< 5%) presented more frequently with refractory disease (P ؍ .007). The prognostic significance of Treg numbers was independent of the FLIPI. Seven transformed diffuse large B-cell lymphomas (DLBCLs) had lower Treg percentages (mean: 3.3%) than FL grades 1,2 (mean: 12.1%) or 3 (mean: 9%) (P < .02).
To analyze the relationship between immunophenotyping profile and main clinicopathological features and outcome in diffuse large B-cell lymphoma (DLBCL), we studied 128 patients (59 men, 69 women; median age 65 years) consecutively diagnosed with de novo DLBCL in a single institution. Cells from each patient were immunostained with CD20, CD79a, CD5, CD10, bcl-6, MUM1, CD138, bcl-2, p53, p27, and Ki-67 antibodies. Four immunophenotyping profiles were distinguished according to the pattern of differentiation: germinal center-CD10 ؉ (GC-, and plasmablastic (CD10 ؊ /bcl-6 ؊ / MUM1 ؉ /CD138 ؉ ). Rearrangement of bcl-2 was studied by polymerase chain reaction (PCR) in 57 patients. Single-antigen expression was as follows: CD5, 2%; CD10, 21%; bcl-6, 72%; MUM1, 54%; CD138, 2%; bcl-2, 59%; p53, 28%; p27, 40%. Distribution according to differentiation profiles was as follows: GC-CD10 ؉ , 24 patients, GC-CD10-, 30 patients; pGC, 60 patients; plasmablastic, 2 patients; other patterns, 12 patients. The pGC profile was associated with primary nodal presentation and immunoblastic morphology, whereas GC-CD10 ؉ tumors showed disseminated disease, centroblastic morphology, bcl-2 rearrangement, and lower Ki-67 proliferative index.
Mantle cell lymphoma (MCL) is an aggressive tumor, but a subset of patients may follow an indolent clinical course. To understand the mechanisms underlying this biological heterogeneity, we performed whole-genome and/or whole-exome sequencing on 29 MCL cases and their respective matched normal DNA, as well as 6 MCL cell lines. Recurrently mutated genes were investigated by targeted sequencing in an independent cohort of 172 MCL patients. We identified 25 significantly mutated genes, including known drivers such as ataxia-telangectasia mutated (ATM), cyclin D1 (CCND1), and the tumor suppressor TP53; mutated genes encoding the anti-apoptotic protein BIRC3 and Toll-like receptor 2 (TLR2); and the chromatin modifiers WHSC1, MLL2, and MEF2B. We also found NOTCH2 mutations as an alternative phenomenon to NOTCH1 mutations in aggressive tumors with a dismal prognosis. Analysis of two simultaneous or subsequent MCL samples by whole-genome/whole-exome (n = 8) or targeted (n = 19) sequencing revealed subclonal heterogeneity at diagnosis in samples from different topographic sites and modulation of the initial mutational profile at the progression of the disease. Some mutations were predominantly clonal or subclonal, indicating an early or late event in tumor evolution, respectively. Our study identifies molecular mechanisms contributing to MCL pathogenesis and offers potential targets for therapeutic intervention.next-generation sequencing | cancer genetics | cancer heterogeneity M antle cell lymphoma (MCL) is a mature B-cell neoplasm characterized by the t(11;14)(q13;q32) translocation leading to the overexpression of cyclin D1 (1). CCND1 is a weak oncogene that requires the cooperation of other oncogenic events to transform lymphoid cells (2). Molecular studies have identified alterations in components of the cell-cycle regulation, DNA damage response, and cell survival pathways (3, 4), but the profile of mutated genes contributing to the pathogenesis of MCL and cooperating with CCND1 is not well defined (1). Most MCL cases have a rapid evolution and an aggressive behavior with an unfavorable outcome with current therapies (5). Paradoxically, a subset of patients follows an indolent clinical evolution with stable disease even in the absence of chemotherapy (6, 7). This favorable behavior has been associated with IGHV-mutated (8, 9) and lack of expression of SOX11 (10, 11), a transcription factor highly specific of MCL that contributes to the aggressive behavior of this tumor (12). However, the molecular mechanisms responsible for this clinical heterogeneity are not well understood.To gain insight into the molecular pathogenesis of MCL we performed whole-genome sequencing (WGS) and whole-exome sequencing (WES) of 29 MCL and further investigated mutated genes in an expanded series of patients. We also analyzed the subclonal heterogeneity of the tumors and their modulation during the evolution of the disease. Results Landscape of Mutations in MCL.We performed WGS and WES of 4 and 29 MCL, respectively. These patients were re...
A high content of PD-1-positive cells predicted favorable outcome of FL patients, whereas a marked reduction is observed in transformation.
EUS-TCB is not superior to EUS-FNA in GISTs because of the high rate of technical failure of trucut. However, when an adequate sample is obtained with EUS-TCB, immunohistochemical phenotyping is almost always possible. EUS-TCB can be safely performed in this set of patients.
FLIPI and histology were the most important variables predicting HT. Upon HT, only patients achieving CR reached prolonged survival, thus emphasizing the need for effective therapies once this event occurs.
ZAP-70 is a tyrosine kinase that participates in early B-cell differentiation and is a prognostic factor in chronic lymphocytic leukaemia (CLL), where it is associated with an unmutated configuration of the IgV(H) genes. In this study ZAP-70 expression was studied by immunohistochemistry in a spectrum of B-cell lymphoid neoplasms; this staining method was compared with flow cytometry, and the relationship of ZAP-70 expression to mutational status and prognosis was assessed. 242 tissue samples from 225 patients with B-cell lymphoid neoplasms arising at different maturational stages were included. Flow cytometry was performed in all CLL cases (n = 52). IgV(H) mutational status was determined in 25 CLL and 12 mantle cell lymphoma (MCL) patients. ZAP-70 was positive in 34/52 (65%) CLL, 9/31 (31%) Burkitt's lymphoma, 2/7 (29%) lymphoblastic lymphomas, 3/36 (8%) MCL, 1/23 (4%) marginal zone lymphoma, and 1/45 (2%) diffuse large B-cell lymphomas, but in none of the 19 follicular lymphomas or the 14 Hodgkin lymphomas. An identical ZAP-70 pattern was obtained in six patients with simultaneous biopsies from different sites and in 12 patients with sequential biopsies. Immunohistochemistry and flow cytometry gave identical results in 48 the 52 CLLs. All but one ZAP-70-positive CLL had IgV(H) gene in an unmutated configuration, whereas all but one ZAP-70-negative CLL had somatically hypermutated IgV(H). The 12 MCLs analysed were ZAP-70 negative regardless of IgV(H) mutational status (4 mutated, 8 unmutated). ZAP-70 positive CLL was associated with a shorter overall survival (median time 103 months vs. 293 months, p = 0.01) and a shorter time to disease progression (median time 26 months vs. 60 months, p = 0.01). In conclusion, ZAP-70 is expressed in several types of B-cell neoplasm and is easily detected by immunohistochemistry, providing a useful prognostic marker in patients with CLL from whom no other material is available or when other techniques for its assessment cannot be performed.
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