Post-transplant lymphoproliferative disorder subtypes correlate with different recurring chromosomal abnormalities

Although cytogenetic analysis advanced the understanding of the pathogenesis of primary non-Hodgkin lymphoma and led to improved clinical management, there have been no large cytogenetic studies of post-transplant lymphoproliferative disorder (PTLD). We examined the karyotypes of 36 PTLD cases and correlated them with clinical, laboratory, and pathologic findings. The cases included 2 early lesions, 13 polymorphic PTLDs, and 21 monomorphic PTLDs (18 B-cell and 3 T-cell proliferations). Cytogenetic abnormalities were identified in 72% of monomorphic B-cell PTLDs and in all T-cell PTLDs, but in only 15% of polymorphic PTLDs and in no early lesions. The most frequent clonal abnormalities in monomorphic PTLD were trisomies 9 and/or 11 (5 cases), followed by rearrangements of 8q24.1 (4 cases), 3q27 (2 cases), and 14q32 (2 cases). MYC rearrangement (8q24.1) and T-cell-associated chromosomal abnormalities correlated with poor outcome and short survival. PTLD with trisomy 9 and/or 11 developed early after transplant, presenting as Epstein-Barr virus-positive large B-cell lymphoma with prolonged survival.     

Cytogenetic analysis of B-cell posttransplant lymphoproliferations validates the World Health Organization classification and suggests inclusion of florid follicular hyperplasia as a precursor lesion

Cytogenetic abnormalities in B-cell posttransplant lymphoproliferative disorders (PTLD) have not been well characterized. We thus performed cytogenetic analysis of 28 cases of B-cell PTLD, 1 infectious mononucleosis (IM)-like lesion, 9 polymorphic PTLD, 17 monomorphic PTLD, and 1 classical Hodgkin lymphoma (HL), and correlated the karyotypic findings with the phenotype, Epstein-Barr virus infection status, and clinical outcome. Karyotypes of 19 cases of posttransplant florid follicular hyperplasia (FFH) were also analyzed. Informative karyotypes were obtained in 20 (71.4%) of 28 PTLDs and 18 (94.7%) of 19 FFHs. Clonal karyotypic abnormalities were detected in 13 (65%) of 20 PTLDs, including 9 (75%) of 12 monomorphic PTLDs, 2 (33.3%) of 6 polymorphic PTLDs, 1 IM-like lesion, and 1 HL, and 2 (11.1%) of 18 FFHs. Recurrent chromosome breaks at 1q11-21 (n = 6, including 1 FFH), 14q32 (n = 3, including 1 FFH), 16p13 (n = 3), 11q23-24 (n = 2), and 8q24 (c-MYC) (n = 2); gains of chromosome 7 (n = 4), X (n = 3), 2 (n = 3), 12 (n = 2); and loss of chromosome 22 (n = 2, including 1 IM-like lesion) were identified. The presence of cytogenetic abnormalities did not correlate with PTLD phenotype, Epstein-Barr virus infection, or clinical outcome. We describe novel karyotypic aberrations in PTLD and report clonal cytogenetic abnormalities in posttransplant FFH and an IM-like lesion for the first time. Our findings provide validation of the current World Health Organization classification of PTLD and also suggest incorporation of FFH as the earliest recognizable precursor of PTLD.     

Posttransplantation lymphoproliferative disorders in pediatric patients undergoing liver transplantation

OBJECTIVES: To study the clinicopathologic and molecular genetic findings in posttransplantation lymphoproliferative disorders (PTLDs) following pediatric liver transplantation and to determine the applicability of a recently proposed consensus classification system. DESIGN: The clinical, pathologic, and molecular genetic findings of 11 PTLDs that occurred in 10 patients are presented. These 10 patients were derived from a group of 121 pediatric patients who underwent liver transplantation at the University of California, San Francisco. The PTLDs were classified using the proposed Society for Hematopathology scheme. Clonality was determined by immunohistochemical detection of monotypic immunoglobulin or by using polymerase chain reaction-based methods to detect monoclonal immunoglobulin heavy-chain gene rearrangements. Epstein-Barr virus (EBV) was detected by immunohistochemistry, in situ hybridization, or polymerase chain reaction. Epstein-Barr virus typing and the presence of LMP1 gene deletions were also analyzed by polymerase chain reaction. RESULTS: There were 3 early lesions, 4 polymorphic PTLDs, and 4 monomorphic PTLDs. Monoclonality was demonstrated in 8 of 9 cases assessed. Epstein-Barr virus was present in all cases; of 9 cases assessed by polymerase chain reaction, the virus was type A in 8 and type B in 1. No EBV LMP1 gene deletions were identified. The corresponding liver explants were negative for EBV in 8 cases and positive in 1 case. Greater than 3 foci of disease and monomorphic PTLD were associated with decreased actuarial survival (P <.05). CONCLUSIONS: The prognosis of pediatric patients with PTLD is favorable for early lesions and polymorphous PTLD, particularly in patients with localized disease. Multifocal disease and monomorphic PTLD are associated with an unfavorable prognosis.     

Molecular characterization of post‐transplant lymphoproliferative disorders of donor origin occurring in liver transplant recipients

Post‐transplant lymphoproliferative disorders (PTLDs) represent a frequent complication of solid organ transplantation. Although most PTLDs arise from recipient lymphoid cells, a considerable fraction of cases may arise from donor B‐cells. In an attempt to clarify the histogenesis and pathogenesis of PTLDs derived from donor B‐cells, monoclonal PTLDs occurring in liver transplant recipients were chosen as a model to compare donor (D‐PTLDs) versus recipient PTLDs (R‐PTLDs). The tumour panel included nine D‐PTLDs and six R‐PTLDs. D‐PTLDs were early‐onset, EBV‐infected lymphoproliferations classified as polymorphic PTLD (P‐PTLD; n = 7) or diffuse large B‐cell lymphoma (DLBCL; n = 2) with tumour localization confined to the hepatic hilum. All R‐PTLDs were late‐onset DLBCLs and showed extrahepatic localization. A BCL‐6^?/MUM1⁺/CD138^+/? phenotype, consistent with a post‐germinal centre (GC) stage of pre‐terminal B‐cell differentiation, was observed in all D‐PTLDs and in 2/6 R‐PTLDs, whereas a BCL6⁺/MUM1^?/CD138^? profile, reminiscent of GC B‐cells, was detected in 4/6 R‐PTLDs. The presence of somatic IGHV hypermutation was observed in 6/9 D‐PTLDs and in 4/6 R‐PTLDs, suggesting derivation from antigen‐experienced B‐cells. IGHV4‐39 was the IGHV gene most frequently encountered, being rearranged in 3/9 D‐PTLDs. Among IGHV‐mutated PTLDs, a mutational profile suggesting antigen stimulation and/or selection was observed in 4/6 D‐s and in 2/4 R‐PTLDs. The presence of ongoing IGHV mutations was detected in 2/4 D‐PTLDs. Aberrant SHM was detected in 10/15 (66.7%) PTLDs, including 6/9 D‐PTLDs and 4/6 R‐PTLDs. Our findings suggest that (i) D‐PTLDs show a clinical presentation distinct from R‐PTLDs; (ii) immunophenotypic and genetic features of D‐PTLDs are consistent with mature, GC‐experienced B‐cells; (iii) transformed donor‐derived B‐cells may experience antigen‐driven stimulation and selection, and may acquire genetic lesions during neoplastic expansion in the recipient environment; and (iv) EBV infection and expression of viral oncoproteins may be relevant in the pathogenesis of D‐PTLDs. Copyright © 2009 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.     

Post-transplant lymphoproliferative disorders

Post-transplant lymphoproliferative disorders (PTLD) are the second most frequent neoplasia in transplant patients after skin carcinomas. They occur following both solid organ transplants (SOT) and haematopoietic stem cell transplants (HSCT). Most PTLD in solid organ recipients are of host origin, whereas in HSCT recipients they are most often of donor origin. The EBV status of the recipient and the donor, the type of transplant, the type of immunosuppressive therapy used, and the time after transplant are all important parameters that have been associated with the incidence and the type of PTLD. Although most PTLD are B-cell lesions up to 15% may be T-cell or NK-cell type. Most PTLD are associated with EBV, but EBV-negative PTLD are also clearly recognized. In the 2008 WHO classification of lymphoid neoplasms (ref) PTLD are subclassified according to their histological and immunophenotypic characteristics into early lesions, polymorphic type, monomorphic type, and classical Hodgkin lymphoma-type. Overall PTLD mortality rates are around 50%, but new therapies that include early treatment with rituximab and novel anti-EBV therapies promise better outcomes.     

MUM1蛋白在弥漫性大B细胞淋巴瘤中的表达及意义

目的 探讨弥漫大B细胞淋巴瘤(diffuse large B-cell lymphoma,DLBCL)中活化的B细胞相关蛋白MUM1的表达与临床病理特征之间的关系.方法 利用组织微阵列免疫组化检测60例DLBCL石蜡包埋组织中MUM1、bcl-6和CD10的表达.结果 60例DLBCL被分为两种抗原表达表型:一种为活化的B细胞表型(A型)表达MUM1;另一种为生发中心B细胞表型(B型),表达CD10和(或)bcl-6但不表达MUM1.60例DLBCL中61.67%为A型,31.67%为B型,其中59.25%中心母细胞型,3/4免疫母细胞型,2/2间变性大B细胞型均为A型.A型在结外和结内DLBCL中分别占61.76%和61.54%,而在胃肠道DLBCL中的比例(47%)显著低于在其他结外DLBCL中的比例(80%,P=0.079).在MUM-1( )/bcl-6( )/CD10( /-)的病例中,75.00%(12/16)为结外DLBCL,高于在MUM-1( )/bcl-6(-)/CD10(-)病例中的比例43.75%(7/16),但差异没有显著性(P=0.149).结论 A型(表达MUM1)在DLBCL中的比例较高,提示MUM1表达很可能与DLBCL组织学变异有关,联合检测CD10和bcl-6,可协助DLBCL分型诊断.     

Clinical Characteristics of Monomorphic Post-transplant Lymphoproliferative Disorders

Post-transplant lymphoproliferative disorders (PTLD) are a heterogeneous group of lymphoproliferative disorders associated with immunosuppression and Epstein-Barr virus infection. PTLD is classified into three major categories: early lesions, polymorphic PTLD, and monomorphic PTLD. The majority of monomorphic PTLD cases are non-Hodgkin''s lymphoma of B-cell origin. This retrospective study was conducted to investigate the incidence, clinical manifestation, treatment, and outcomes of monomorphic PTLD among 5,817 recipients of solid organ or allogeneic hematopoietic stem cell transplantation from five institutions. Fourteen patients with monomorphic PTLD were identified (male:female 11:3; median age 42.6 yr, range 24-60). The overall incidence rate was 0.24%. The most common disease type was diffuse large B cell lymphoma (n=7). The median time between the transplant and diagnosis of PTLD was 85.8 months. However, all cases of PTLD after allogeneic hematopoietic stem cell transplantation occurred within 1 yr after transplantation. Ten of the 14 patients had EBV-positive tumor. Fourteen patients received combination systemic chemotherapy and four patients were treated with radiation therapy. Ten patients achieved a complete response (CR) and two patients a partial response (PR). The median follow-up period for surviving patients was 36.6 months. Nine patients remain alive (eight CR, one PR). Nine of 11 solid organ transplantations preserved graft function. The present study indicates a lower incidence rate and a longer median time before the development of PTLD than those of previous reports. Careful monitoring was needed after allogeneic hematopoietic stem cell transplantation for PTLD.     

EBV-associated B- and T-cell posttransplant lymphoproliferative disorders following primary EBV infection in a kidney transplant recipient

Posttransplant lymphoproliferative disorders (PTLDs) usually are of B-cell lineage and associated with Epstein-Barr virus (EBV). PTLDs of T-cell lineage are much less common and infrequently associated with EBV. We report a rare case of a girl in whom B-cell and T-cell PTLDs developed following 2 EBV-negative kidney transplants. Within 2 years of the second transplantation, the originally EBV-negative patient developed both an EBV-associated clonal B-cell PTLD involving lymph nodes and an EBV-positive T-cell PTLD involving bone marrow and liver. These proliferations occurred concurrently with evidence of primary EBV infection and high plasma viral load. The patient eventually died of multiorgan failure 5 years after the initial transplant (3 years after the second transplant). To our knowledge, only 4 cases of both B-cell and T-cell PTLDs have been reported. Only 2 cases have been proven to be monoclonal and EBV-associated, as in this case, the first following kidney transplantation.     

The expression of Epstein-Barr virus latent proteins is related to the pathological features of post-transplant lymphoproliferative disorders.

Transplant recipients are at increased risk for the development of post-transplant lymphoproliferative disorders (PTLDs). PTLDs harbor genomes of the Epstein-Barr virus, a herpesvirus that immortalizes B cells in vitro. At least five viral proteins are required for immortalization. Two of them are particularly important. Latent membrane protein (LMP) has transforming activity in fibroblasts, and Epstein-Barr antigen (EBNA)2 transactivates the expression of numerous cellular and viral genes. To determine whether the expression of EBNA2 and LMP is related to the histological and clinical presentation of PTLD, we tested their expression in 14 Epstein-Barr virus-positive cases. Using monoclonal antibodies to EBNA2 and LMP on paraffin sections, we found an expression of both proteins in 2 of 3 polymorphic PTLD and in 7 of 8 cases of monomorphic, large cell PTLD, without plasmacytic differentiation. One polymorphic and one large cell PTLD expressed LMP only. LMP and EBNA2 were found particularly in immunoblasts. The number of positive cells was extremely variable in the different cases as well as within the same biopsy. Three cases of PTLD had morphological and phenotypical features of plasmacytomas and did not stain for EBNA2 or LMP. This suggests that the expression of EBNA2 and LMP is related to the differentiation stage of the infected cells and that other viral or cellular proteins may contribute to tumor growth.     

原发性中枢神经系统弥漫性大B细胞淋巴瘤主要为活化B细胞亚型

目的 对原发性中枢神经系统弥漫性大B细胞淋巴瘤分型,并探讨其组织起源和预后相关意义.方法 应用免疫组织化学EnVision二步法,检测CD10、bcl-6、MUM-1、CD138和FOXP1在47例原发性中枢神经系统弥漫性大B细胞淋巴瘤中的表达情况.结果 CD10、bcl-6、MUM-1、CD138和FOXPI表达率分别为6.4%、53.2%、91.5%、0和93.6%.47例中有43例(91.5%)为活化B细胞表型:21例(44.7%)为活化的生发中心亚型,22例(46.8%)为活化的非生发中心亚型.该分型及FOXP1的表达与预后无明显相关性(P=0.279和P=0.154).结论 原发性中枢神经系统弥漫性大B细胞淋巴瘤绝大多数为活化B细胞亚型,是系统性弥漫性大B细胞淋巴瘤中一种相对同质性的亚型,推测其组织起源是生发中心末期至后生发中心早期的B细胞.     

Germinal center and activated b-cell profiles separate Burkitt lymphoma and diffuse large B-cell lymphoma in AIDS and non-AIDS cases

Morphologic features of Burkitt lymphoma (BL) and diffuse large B-cell lymphoma (DLBCL) overlap. No single phenotypic marker or molecular abnormality is pathognomonic. We tested a panel of 8 germinal center (GC) and activated B-cell (ABC) markers for their ability to separate BL and DLBCL. We diagnosed 16 BL and 39 DLBCL cases from 21 patients with AIDS and 34 without AIDS based on traditional morphologic criteria, Ki-67 proliferative index, and c-myc rearrangement (fluorescence in situ hybridization). After immunohistochemically staining tissue microarrays of BL and DLBCL for markers of GC (bcl-6, CD10, cyclin H) and ABC (MUM1, CD138, PAK1, CD44, bcl-2), we scored each case for the percentage of positive cells. Hierarchical clustering yielded 2 major clusters significantly associated with morphologic diagnosis (P < .001). For comparison, we plotted the sum of the GC scores and ABC scores for each case as x and y data points. This revealed a high-GC/low-ABC group and a low-GC/high-ABC group that were associated significantly with morphologic diagnosis (P < .001). Protein expression of multiple GC and ABC markers can separate BL and DLBCL.     

bcl-2 PROTEIN IS STRONGLY EXPRESSED IN POST-TRANSPLANT LYMPHOPROLIFERATIVE DISORDERS

The aim of this study was to examine a series of Epstein–Barr virus (EBV)-driven post-transplant lymphoproliferative disorders (PTLDs), in order to ascertain the level of bcl-2 immunostaining; to explore the relationship between bcl-2 and p53 protein expression; and to see if any correlation exists between bcl-2 and EBV-latent membrane protein 1 (LMP-1). Seventeen renal and 11 heart/heart–lung PTLD cases were stained with antibodies to EBV-LMP-1, bcl-2 and p53, using paraffin-embedded tissue. All cases of PTLD strongly co-expressed bcl-2 and EBV-LMP. Positive staining was present in small lymphoid and larger immunoblastic cells. These two antibodies showed parallel staining intensity. p53 expression was noted in 13 of 17 renal PTLDs, but in ten of the positive cases only 5–10 per cent of cells were stained. Seven of the 11 heart/heart–lung cases showed 50–60 per cent of cells to be p53-positive; in the remaining four cases, 10–20 per cent of cells were positive. bcl-2 protein, as detected by immunohistochemistry, is markedly overexpressed in all cases of PTLD. This study also demonstrates a strongly positive correlation between bcl-2 expression and EBV-LMP-1 detection in PTLDs. An inverse pattern of p53 and bcl-2 immunoexpression is noted in PTLDs with ‘high grade’ histology: these show marked expression of bcl-2, while p53 is downregulated. A Fisher's exact test yielded a P value of 0·12 when comparing p53-positive renal PTLDs with p53-positive heart/heart–lung PTLDs, indicating that any difference seen is not statistically significant. The postulated mechanism for the positive correlation between bcl-2 and EBV-LMP-1 is that EBV upregulates bcl-2, either directly or indirectly, thus promoting cell survival and ultimately successful viral replication.     

EBV-associated, extranodal NK-cell lymphoma, nasal type of the breast, after heart transplantation.

Post-transplantation lymphoproliferative disorders (PTLDs) are predominantly Epstein-Barr virus (EBV)-associated B-cell lymphoproliferations. PTLDs of T-cell lineage are rare, mostly reported after renal transplantation and show less frequent association with EBV. NK-cell lymphomas after transplantation (NK-cell PTLDs) are very rare; only five cases are reported so far in the English literature, all developed after renal transplantation. We describe a case of EBV-associated, extranodal NK-cell lymphoma of nasal type, involving the breast in a cardiac allograft recipient 5 years after transplantation. The neoplastic cells are positive for CD2, cytoplasmic CD3, CD7, CD43, CD56, TIA-1 and p53; and negative for surface CD3 and CD57. Analysis of T-cell receptor beta and gamma genes fails to show clonal rearrangement. EBV studies show clonal episomal integration of EBV and latency II pattern (EBER-1+, LMP-1+, EBNA-1+, EBNA-2-). In conclusion, NK-cell PTLDs are rare complications that arise relatively late after solid organ transplantation, show strong association with EBV, and can follow an aggressive clinical course. To the best of our knowledge, we present the first reported case of NK-cell PTLD after cardiac transplantation and the unifying clinical and diagnostic features of NK-cell PTLDs occurring after solid organ transplantation.     

Extranodal posttransplant plasmacytic hyperplasia with subsequent posttransplant plasmacytic malignancy: six-year interval case report and review of the literature

Posttransplant lymphoproliferative disorders (PTLDs) represent a morphologic, immunophenotypic, and genotypic spectrum of disease. Most recently, Knowles et al divided PTLDs into 3 distinct categories: (1) plasmacytic hyperplasia, (2) polymorphic B-cell hyperplasia and polymorphic B-cell lymphoma, and (3) immunoblastic lymphoma and multiple myeloma. Although one form of PTLD may progress to another form, only 1 previous case has been reported in which multiple myeloma developed 14 months after an original diagnosis of plasmacytic hyperplasia. The type of solid organ transplant was not specified in that case. We report a post--cardiac transplant plasmacytic hyperplasia developing 7 years posttransplant. Six years subsequent to the plasmacytic hyperplasia, the patient developed a posttransplant plasmacytic malignancy, supported by morphology, flow cytometric immunophenotyping, and genotypic studies. Since we have no data to support disseminated bony disease or an abnormal serum protein, we have not used the term "multiple myeloma" for this case.     

移植后淋巴组织增生性疾病的临床病理分析

目的探讨移植后淋巴组织增生性疾病（PTLD）的临床及病理特征,提高其诊断和治疗水平。方法对4例移植后淋巴组织增生性疾病行HE和免疫组织化学EnVision法染色、原位杂交及聚合酶链反应,复习其临床资料并随访。结果4例中3例是肾移植后,其中2例为多形性PTLD,1例为单形性PTLD;另1例是异体骨髓移植后PTLD的“早期”病变。2例EB病毒阳性。4例移植后所用免疫抑制剂均以环孢A类药为主,辅以激素。例1～4从移植到诊断PTLD的时间为42、7、129、2个月。例3多形性PTLD的临床分期为Ⅱ期（诊断PTLD后2个月死亡）;其余均为Ⅰ期。均存活,诊断PTLD后生存期为40（例1）、26（例2）、5（例4）个月。结论PTLD是发生在器官移植后,具有独特的形态和临床特征的淋巴组织增生性疾病,部分病例与EB病毒感染有关。其预后与临床分期相关,免疫抑制剂减量可能有效。     

Expression of transmembrane adaptor protein PAG/Cbp in diffuse large B-cell lymphoma: immunohistochemical study of 73 cases

PAG/Cbp is a transmembrane adaptor protein involved in proximal immune signaling. It is expressed in reactive germinal centers (GC) of secondary lymphatic follicles and related malignant lymphomas. We studied PAG/Cbp expression in GC-like and non-GC-like diffuse large B-cell lymphoma (DLBCL) subtypes. Seventy-three cases of DLBCL identified among 155 malignant lymphomas were classified as GC-like DLBCL (CD10+ or CD10-, bcl-6+, and MUM1-) and non-GC-like DLBCL (CD10-, MUM1+ or CD10-, bcl-6+, MUM1+). PAG/Cbp was detected by monoclonal antibody MEM-255 following routine immunohistochemical procedures. Thirty-five of 40 GC-like DLBCLs (88%) and 20 of 33 non-GC-like DLBCL cases (61%) expressed PAG/Cbp. Four of 12 bcl-6-negative non-GC-like DLBCL cases (33%) were PAG/Cbp positive, and only 4 of 20 bcl-6-positive non-GC-like DLBCL cases (25%) were PAG/CBP negative. All 37 FL and all 5 Burkitt's lymphomas (BL) expressed PAG/Cbp, whereas all 6 mantle cell lymphomas (MCL) and 4 of 5 chronic lymphocytic leukemias (CLL/SLL) were PAG/Cbp negative. PAG/Cbp is a reliable GC marker. Its expression correlates with GC-like DLBC phenotype in a significant majority of cases. It is typically absent in MCL and SLL/CLL.     

儿童腹腔非霍奇金B细胞淋巴瘤的临床病理及免疫表型分析

目的 探讨儿童腹腔原发性非霍奇金B细胞淋巴瘤的临床病理、免疫表型与EBER特征及其病理诊断和鉴别诊断.方法 按WHO(2008年)淋巴瘤分类标准分析74例儿童腹腔原发性非霍奇金B细胞淋巴瘤的临床病理资料,制备组织芯片,进行免疫组织化学SP法染色,EBER原位杂交和c-myc基因荧光原位杂交,观察CD20、CD79a、CD3、CD10、bcl-6、MUM1、bcl-2、CD43、CD38和Ki-67蛋白的表达和EBER表达特征,并区分伯基特淋巴瘤(BL)、弥漫性大B细胞淋巴瘤(DLBCL)和介于BL和DLBCL之间的不能分类的B细胞淋巴瘤(DLBCL/BL)病理类型,在DLBCL中再区分其生发中心B细胞型(GCB)和非生发中心B细胞型(non-GCB)的分化特征.结果 儿童腹腔非霍奇金B细胞淋巴瘤中BL为65例(87.8%),DLBCL为4例(5.4%),DLBCL/BL为5例(6.8%).临床以腹痛、腹部包块、肠梗阻及肠套叠为主要发病症状.BL免疫组织化学表达CD20(65例)、CD79a(65例)、CD10(63例)、bcl-6(62例)、MUM1(15例)、CD43(46例)和CD38(63例);不表达CD3、bcl-2;27例(41.6%)EBER阳性;54例(93.0%)c-myc基因位点断裂.DLBCL免疫组织化学表达CD20(4例)、CD79a(4例)、CD10(3例)、bcl-6(2例)、MUM1(2例)、bcl-2(3例)、CD43(2例)、CD38(2例);不表达CD3;其中2例GCB,2例non-GCB;EBER阴性;1例c-myc基因位点断裂.DLBCL/BL免疫组织化学表达CD20(5例)、CD79a(5例)、CD10(5例)、bcl-6(4例)、MUM1(3例)、CD43(5例)、CD38(3例),不表达CD3和bcl-2;4例EBER阴性;3例c-myc基因位点断裂.结论 儿童腹腔非霍奇金B细胞淋巴瘤具有侵袭性生长的特点,以BL为主要病理类型.临床以腹痛、腹部包块、肠梗阻及肠套叠为主要发病症状,主要累及回盲部肠组织及周围系膜淋巴结,病理形态、免疫表型、EBER、c-myc基因的检测对BL、DLBC及DLBCL/BL淋巴瘤的诊断和鉴别诊断有重要作用.     

Hodgkin lymphoma-like posttransplantation lymphoproliferative disorder

Posttransplantation lymphoproliferative disorders (PTLD) are a heterogeneous group of monoclonal or polyclonal lymphoproliferative lesions that occur in immunosuppressed recipients following solid organ or bone marrow transplantation, including 4 categories: (1) early lesions (reactive plasmacytic hyperplasia, and infectious-mononucleosis-like PTLD), (2) polymorphic PTLD, (3) monomorphic PTLD (including B-cell neoplasms and T-cell neoplasms), and (4) Hodgkin lymphoma (HL) and HL-like PTLD in the current World Health Organization classification. Although HL-like PTLD has been grouped with classic HL PTLD, controversy remains as to whether it is truly a form of HL or whether it should be more appropriately considered as a form of B-cell PTLD. The current available literature data indicate the presence of important immunophenotypic, molecular genetic, and clinical differences between HL PTLD and HL-like PTLD, suggesting that HL-like PTLD is in fact most often a form of B-cell PTLD. Distinction from true HL may be important for clinical management and prognosis.     

Epstein-Barr virus (EBV) positive diffuse large B cell lymphoma of the elderly—Experience of a single center from Turkey

In the 2008 WHO lymphoma classification, ‘EBV-positive diffuse large B cell lymphoma (DLBCL) of the elderly is included as a new provisional entity. We aimed to evaluate the morphological, immunophenotypic, and clinical characteristics of the cases diagnosed as ‘EBV-positive DLBCL of the elderly’ in our center and compared them with the ‘EBV-negative DLBCL’ patients older than 50 years of age. EBV status was detected by Epstein-Barr early RNA (EBER) in situ hybridization analysis. By immunohistochemistry, a panel of antibodies for CD10, Bcl-2, Bcl-6, IRF4/MUM1, CD30, and Ki67 was performed. Out of 149 DLBCL patients older than 50 years, without any known history of immunodeficiency or prior lymphoma, eight patients who fulfill the criteria were re-evaluated. Five patients were male and three were female, with a median age of 67.6 years. Four patients presented with nodal involvement; others presented with bone and soft tissue, bone marrow, and spleen infiltrations. Five cases revealed predominantly monomorphic morphology, one also contained focal areas consistent with polymorphous subtype; and three patients revealed a polymorphous infiltrate. When classified according to ‘Hans criteria’, five were non-GCB, and three were of the GCB cell phenotype. All cases with polymorphous morphology were revealed to be of the non-GCB cell phenotype, and all expressed IRF4/MUM1. Two patients died with disease, four patients are alive and in complete remission following R-CHOP therapy, and two patients have just recently been diagnosed.