An integrated genomic and expression analysis of 7q deletion in splenic marginal zone lymphoma.

2012

Watkins AJ, Hamoudi RA, Zeng N, Yan Q, Huang Y, Liu H, Zhang J, Braggio E, Fonseca R, de Leval L, Isaacson PG,Wotherspoon A, McPhail ED, Dogan A, Du MQ.

Source

Division of Molecular Histopathology, Department of Pathology, University of Cambridge, Cambridge, United Kingdom.

Abstract

Splenic marginal zone lymphoma (SMZL) is an indolent B-cell lymphoproliferative disorder characterised by 7q32 deletion, but the target genes of this deletion remain unknown. In order to elucidate the genetic target of this deletion, we performed an integrative analysis of the genetic, epigenetic, transcriptomic and miRNomic data. High resolution array comparative genomic hybridization of 56 cases of SMZL delineated a minimally deleted region (2.8 Mb) at 7q32, but showed no evidence of any cryptic homozygous deletion or recurrent breakpoint in this region. Integrated transcriptomic analysis confirmed significant under-expression of a number of genes in this region in cases of SMZL with deletion, several of which showed hypermethylation. In addition, a cluster of 8 miRNA in this region showed under-expression in cases with the deletion, and three (miR-182/96/183) were also significantly under-expressed in SMZL relative to other lymphomas. Genomic sequencing of these miRNA and IRF5, a strong candidate gene, did not show any evidence of somatic mutation in SMZL. These observations provide valuable guidance for further characterisation of 7q deletion.

PLOS - PubMed

Rituximab, used alone or in combination, is superior to other treatment modalities in splenic marginal zone lymphoma.

Nov 2012

Else M, Marín-Niebla A, de la Cruz F, Batty P, Ríos E, Dearden CE, Catovsky D, Matutes E.

Source

Royal Marsden Hospital and the Institute of Cancer Research, Sutton, UK.

Abstract

Splenic marginal zone lymphoma (SMZL) is a rare B-cell malignancy, with no standard treatment other than splenectomy. Rituximab has shown encouraging results. We therefore retrospectively assessed 43 patients from two centres, who received rituximab, either alone or with chemotherapy. All patients responded, 34/43 (79%) achieving a complete response (CR), compared with 3/10 (30%) after chemotherapy without rituximab (P = 0·005). Of these 10 patients, 9 (90%) subsequently achieved a CR after rituximab (P = 0·02). Rituximab monotherapy appeared equally as effective as rituximab combination therapy (90% vs. 79% CR, P = 0·7) with significantly less toxicity (12·5% vs. 83%, P = 0·002). Splenectomized patients were more likely to obtain a CR with rituximab (16/16, 100%) than unsplenectomized patients (18/27, 67%, P = 0·008). Disease-free survival (DFS) at 3 years was better after rituximab than after splenectomy alone [79% (95% confidence interval 60-89) vs. 29% (8-54), Hazard ratio (HR) 0·28 (0·12-0·68), P = 0·003] and better than after chemotherapy without rituximab [25% (4-55), HR 0·21 (0·08-0·51), P = 0·0004]. Survival at 3 years after rituximab was 98%. In summary, the CR and DFS rates after rituximab, given alone or with chemotherapy, were significantly better than after chemotherapy without rituximab in the same patients, with manageable toxicity. Rituximab, with or without splenectomy, should be considered for the treatment of SMZL

Wiley OnLine

Absence of TCL1A expression is a useful diagnostic feature in splenic marginal zone lymphoma.

Oct 2012

Munari E, Rinaldi M, Ambrosetti A, Bonifacio M, Bonalumi A, Chilosi M, Zamò A.

Source

Department of Pathology and Diagnostics, Section of Anatomic Pathology, University of Verona, P.le Scuro 10, 37134, Verona, Italy.

Abstract

Splenic marginal zone lymphoma (SMZL) is a low-grade lymphoma showing a rather nonspecific immunophenotype. Gene expression profiling studies suggested that TCL1A could be a marker of SMZL, but reported data are conflicting. We evaluated TCL1A expression in a series of spleen and bone marrow samples involved by SMZL and correlated the findings with other immunophenotypical, morphological, and clinical data. In addition, we evaluated the expression of TCL1A in a series of spleens and lymph nodes involved by lymphomas that might mimic SMZL (13 nodal marginal zone lymphomas (NMZL), 39 follicular lymphomas (FL), 30 B-cell chronic lymphocytic leukemias (B-CLL), 31 mantle cell lymphomas (MCL), 1 lymphoplasmacytic lymphoma) and 15 bone marrow specimens involving hairy cell leukemia (HCL). TCL1A staining was negative in 24/31 cases of SMZL (77 %); 27/31 MCL and all B-CLL were positive for TCL1A; 32/34 cases of nodal FL (96 %) and all five splenic FL were positive for TCL1A, although at a lower intensity. Eight of 13 NMZL were positive for TCL1A, often showing a heterogeneous staining pattern. All HCL samples were strongly positive for TCL1A. No correlation was found between the pattern of splenic infiltration, TCL1A expression, and the clinical course. TCL1A-positive SMZL showed a higher rate of DBA44 staining compared to the negative ones, and this difference was statistically significant (Fisher test, single-tailed, p = 0.0397). Our data support the use of TCL1A in the panel of diagnostic markers used in the differential diagnosis of splenic low-grade B-cell lymphoma; a possible prognostic value, however, needs a larger series to be established.

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