Combined analysis of T cell receptor gamma and immunoglobulin heavy chain gene rearrangements at the single-cell level in lymphomas with dual genotype

By prospectively studying immunoglobulin heavy chain gene (IgH) and T cell receptor gamma (TCRgamma) gene rearrangements in 398 lymphoma cases, a dual genotype was observed in 13% of B cell and 11% of T cell lymphomas. According to histological subtype, the highest incidence was observed for mantle cell lymphomas (32%) and lymphoplasmacytic lymphoma (21%) among B cell lymphomas, and for angioimmunoblastic lymphoma (AILT) (46%) and Sézary syndrome (SS) (50%) among T cell lymphomas. To determine whether the dual genotype corresponds to the presence of two distinct monoclonal populations or to the presence of both rearrangements within the same lymphoma cells, single-cell microdissection was used after immunohistochemistry and a single-cell combined IgH and TCRgamma gene analysis was designed after a whole-genome amplification step. This protocol was applied to the study of two nodal B cell lymphomas (one diffuse large B cell lymphoma and one mantle cell lymphoma) and two cutaneous T cell lymphomas (one AILT and one SS). Two cases (SS and mantle cell lymphoma) were true bigenotypic lymphomas, as both IgH and TCRgamma monoclonal rearrangements were detected in the same cells. Conversely, in the diffuse large B cell lymphoma and AILT cases, large CD22+ single cells exhibited only the monoclonal IgH rearrangement but not the TCRgamma gene that was detected in CD3+ single cells. Such an approach allows the identification of true bigenotypic lymphoma among dual genotypic lymphoma. Specific genetic alterations may be further amplified from microdissected cryopreserved material, such as the t(11;14) breakpoint detected in bigenotypic B cells of the mantle cell lymphoma case.     

Gastric T-cell lymphoma with cytotoxic phenotype

Primary gastric lymphoma usually originates from B cells of mucosa-associated lymphoid tissue (MALT) infected with Helicobacter pylori. When T-cell lymphomas develop in the stomach, they usually occur in association with infection by human T-lymphotropic virus type 1 and gastric involvement of adult T-cell leukemia. Reported herein is a unique and informative case of gastric peripheral T-cell lymphoma with a cytotoxic phenotype that histologically mimicked, and had to be carefully distinguished from, MALT-type B-cell lymphoma. The patient, a 73-year-old woman, underwent a gastric endoscopy examination, and the histological findings suggested MALT-type gastric lymphoma. Analysis of the immunoglobulin heavy chain (IgH) gene and T cell receptor gamma (TCRgamma) gene revealed monoclonal rearrangement of the TCRgamma gene. The tumor cells exhibited mild atypia and immunoreactivity with anti-CD3, anti-CD8, anti-T-cell intracellular antigen-1, antigranzyme B and antiperforin antibodies, but not with anti-CD20, anti-CD10, and anti-CD79a antibodies. The case was finally diagnosed as gastric T-cell lymphoma with cytotoxic phenotype, and this was confirmed after surgical resection. In cases such as this, small biopsy specimens from the stomach should be examined carefully for low grade B-cell-type malignant lymphoma (MALT lymphoma), because sometimes the proliferating B cells can hide the truly malignant T cells, and rearrangement analysis is useful for diagnosing T-cell malignancy.     

Increase of bone marrow lymphocytes in systemic mastocytosis: reactive lymphocytosis or malignant lymphoma? Immunohistochemical and molecular findings on routinely processed bone marrow biopsy specimens

AIMS: To clarify the nature (reactive or neoplastic) of lesional, perifocally aggregated lymphocytes in bone marrow infiltrates of systemic mastocytosis (SM), the histopathology of which can resemble malignant lymphoma with focal bone marrow involvement, particularly low grade malignant B cell lymphoma of lymphoplasmacytic immunocytoma subtype, which frequently exhibits increased mast cell (MC) numbers. METHODS: Thirteen cases of SM and three of lymphoplasmacytic immunocytoma with predominant focal bone marrow infiltration were investigated. Immunostaining of formalin fixed, paraffin wax embedded bone marrow specimens was performed using antibodies against CD2, CD5, CD20, CD23, and CD25; kappa and lambda immunoglobulin light chains; and MC markers chymase, tryptase, and CD117 (KIT). Monoclonal rearrangements of IgH and TCRgamma were studied using seminested polymerase chain reaction (PCR). c-kit point mutation Asp816-Val was detected by PNA mediated PCR clamping and hybridisation probes. RESULTS: The lymphocytic clusters in SM contained nearly equal numbers of mature T and B cells, the latter with no coexpression of aberrant antigens, such as CD5 or CD23. Most MCs in SM cases constantly coexpressed tryptase, CD25, and CD117. No monoclonal rearrangements were seen for IgH or TCRgamma. In contrast, B cells from immunocytomas showed light chain restriction and monoclonal rearrangement for IgH, confirming their neoplastic nature. c-kit point mutation Asp816-Val was found in ten of 13 SM cases, but in none of the three immunocytomas. CONCLUSIONS: Focal accumulations of lymphocytes in the bone marrow of SM are reactive in nature and could be termed lymphocytosis. A diagnosis of SM-AHNMD/immunocytoma should not be made.     

PCR analysis of immunoglobulin heavy chain (IgH) and TcR-gamma chain gene rearrangements in the diagnosis of lymphoproliferative disorders: results of a study of 525 cases.

This report summarizes a cumulative 4-year experience in polymerase chain reaction (PCR) analysis of immunoglobin heavy chain (IgH) and TcR-gamma chain gene rearrangements in 525 cases of lymphoproliferative disorders. Because the sensitivity of the PCR methodology was found to be tissue dependent, in the study of the presence of clonal cell population in tissues containing a small number of polyclonal lymphocytes, such as skin and gastrointestinal biopsy specimens, we used the multiple-PCR run approach. In this latter methodology, we repeat the PCR reaction from the same sample at least three times to confirm the reproducibility of the results. In the study of 273 cases of B- or T-cell lymphomas with characteristic immunomorphological and clinical features, a clonal IgH or TcR-gamma chain gene rearrangement was detected in approximately 80% of cases. A clonal rearrangement involving both IgH and TcR-gamma chain genes was found in 10% of cases of both B-cell and T-cell lymphomas. The study of 167 cases of nonneoplastic lymphoid tissue samples showed the presence of clonally rearranged cell populations for IgH or TcR-gamma genes in 3 and 9% of cases, respectively. We also applied PCR for the study of 85 cases of lymphoproliferations with no definite diagnosis (i.e., benign versus malignant) after immunomorphological analysis. In 65 cases (76%), the correlation of immunomorphological features with the presence (48 cases) or the absence (17 cases) of clonal lymphoid cell populations led to a definite diagnosis. In almost all these cases, the final diagnosis was found to be in agreement with the clinical course. In the 20 remaining cases (24%), no definite diagnosis could be made. We also assessed the value of PCR in detecting bcl-2/J(H) gene rearrangement as an additional clonal marker in the diagnosis of follicular lymphoma. Bcl-2/J(H) rearrangement and/or IgH gene rearrangement was found in approximately 85% (71/85) of follicular lymphoma cases studied.     

IgH基因单克隆重排检测及其在B细胞性非霍奇金淋巴瘤诊断中的应用

 目的：建立准确可靠、操作性强、适用于临床实际工作的免疫球蛋白重链（immunoglobulin heavy chain,IgH）基因单克隆重排检测方法,用于B细胞性非霍奇金淋巴瘤（B-cell non-Hodgkin lymphoma,B-NHL）的辅助诊断。方法：采用骨架区(framework region,FR）引物FR2、FR3和重链连接区 （joining region of heavy chain,J_H）引物LJH、VLJH组合、A管+B管模式、半巢式聚合酶链式反应(polymerase chain reaction,PCR)法对121例B-NHL、58例T细胞性非霍奇金淋巴瘤（T-cell non-Hodgkin lymphoma,T-NHL）和19例淋巴结反应性增生的石蜡组织进行IgH基因单克隆重排检测,分析IgH基因单克隆重排检出率在B-NHL组、T-NHL组和淋巴结反应性增生组中的差异,以及B-NHL中联合应用FR2和FR3与单独应用FR2、FR3之间IgH基因单克隆重排检出率的差异。结果：118例成功检测的B-NHL中,IgH基因单克隆重排检出率为81%（96/118）;54例成功检测的T-NHL中,IgH基因单克隆重排检出率为4%（2/54）;19例成功检测的淋巴结反应性增生中未检出IgH基因单克隆重排。B-NHL组与T-NHL组、淋巴结反应性增生组相比,IgH基因单克隆重排检出率差异具有显著性（P<0.05）。B-NHL中, FR2基因单克隆重排检出率为58%（68/118）,FR3基因单克隆重排检出率为55%（65/118）,联合应用FR2和FR3,IgH基因单克隆重排检出率为81%（96/118）,联合应用FR2和FR3与单独应用FR2、FR3的检出率有显著差异（P<0.05）。结论：采用FR2、FR3、LJH及VLJH引物组合、A管+B管模式和半巢式PCR法进行石蜡组织IgH基因单克隆重排检测,简单易行,结果准确可靠,阳性率较高,可用于临床B-NHL的辅助诊断。     

PCR-based clonality analysis of B-cell lymphomas in paraffin-embedded tissues: diagnostic value of immunoglobulin kappa and lambda light chain gene rearrangement investigation

Polymerase chain reaction (PCR)-based analysis, employed for detecting immunoglobulin heavy chain (IgH) gene rearrangements, has become a diagnostic tool widely used in the investigation of B-cell lymphomas, but the overall sensitivity of these methods does not exceed 80%, notably in germinal center (GC) and post-GC B-cell origin lymphomas. Many PCR strategies devised for detecting immunoglobulin light chain (IgL) gene rearrangements have been developed to enhance the clonality detection rates. However, the feasibility of these methods in routine clinical diagnosis using paraffin-embedded tissues has not yet been investigated sufficiently. We studied a large series of 108 cases of B-cell lymphomas, as well as 20 reactive lymphoid tissues using degenerate primers to amplify immunoglobulin kappa (Igkappa) and lambda (Iglambda) light chain genes. B-cell clonality was further investigated using semi-nested PCR for IgH gene rearrangements. B-cell clonality was detected in 74%, 56.5%, and 43.5% of cases using IgH, Igkappa, and Iglambda PCR, respectively. By combining these methods, the clonality detection rate increased to 93.5%. Only polyclonal patterns were noted in reactive lymphoid samples. We concluded that in addition to the established methods for IgH analysis, a PCR-based approach for IgL gene rearrangements analysis improves the clonality detection rate in over 90% of B-cell lymphoma cases using routine histological specimens with poor preservation of the genomic DNA.     

Analysis of clonality of atypical cutaneous lymphoid infiltrates associated with drug therapy by PCR/DGGE

Atypical lymphocytic infiltrates that mimic cutaneous lymphoma (ie, pseudolymphoma) are often observed in skin biopsy specimens from patients with altered immune function. The latter may reflect systemic immune dysregulatory states such as collagen vascular disease or human immunodeficiency virus infection. Among the iatrogenic causes are drug therapy with agents that abrogate lymphocyte function. These drugs encompass the anticonvulsants, antidepressants, phenothiazines, calcium channel blockers, and angiotensin-converting enzyme inhibitors. The appellation of lymphomatoid hypersensitivity reaction has been applied to cases of drug-associated pseudolymphoma. Pathologically and clinically, the distinction of such cases from cutaneous lymphoma is difficult. We employed the polymerase chain reaction (PCR) on archival material of proven drug-associated lymphomatoid hypersensitivity reactions both to explore its utility as an adjunct in diagnosis and to investigate the genotypic aberrations induced by drug therapy. Formalin-fixed, paraffin-embedded biopsy specimens from seven cutaneous T-cell lymphomas (CTCL), one nodal T-cell lymphoma, two cutaneous B-cell lymphomas, three typical hypersensitivity reactions, one tonsil, and 14 lymphomatoid hypersensitivity reactions were studied. Control cases for which DNA derived from fresh tissue was used include the Jurkat T-cell tumor line, placenta, one nodal B-cell lymphoma, and one case of reactive lymph node hyperplasia. DNA was obtained and purified by standard methods, then amplified with oligonucleotide primers specific for the T-cell receptor gamma locus and the immunoglobulin heavy chain genes. T-cell amplicons were analyzed by denaturing gradient gel electrophoresis (DGGE) and B-cell amplicons by either nondenaturing polyacrylamide or agarose gel electrophoresis. The nodal and Jurkat T-cell lymphomas, six of seven CTCL, one cutaneous B-cell lymphoma, and 2 of 14 lymphomatoid hypersensitivity reactions showed dominant ("monoclonal") T-cell gene rearrangement patterns, and the remainder of cases were polyclonal. A causal relationship between drug therapy and skin eruption was ascertained in the two patients showing T-cell rearrangements, and both experienced complete and sustained lesional resolution on discontinuation of the implicated drug. The only immunoglobulin heavy chain gene rearrangements detected by PCR were in two of the three B-cell lymphomas. We conclude that PCR/DGGE is a powerful method for assaying T-cell clonality in archival tissue and can aid in the discrimination of reactive from malignant cutaneous infiltrates with appropriate clinicopathologic correlation. Recognition that a monoclonal TCRgamma rearrangement can be observed in cases of drug-associated lymphomatoid hypersensitivity may help in avoiding a misdiagnosis of malignant lymphoma.     

Contribution of IgH-PCR to the evaluation of B-cell lymphoma involvement in paraffin-embedded bone marrow biopsy specimens

We investigated whether the determination of clonality by polymerase chain reaction (PCR) analysis of immunoglobulin heavy chain (IgH) gene rearrangements could be helpful in the evaluation of B-cell lymphoma (BCL) involvement of bone marrow (BM) biopsy specimens. We evaluated 83 paraffin-embedded BM biopsy specimens from 26 patients with BCL. When BM biopsy specimens considered positive, "suspicious," or negative by morphologic and immunohistochemical examination were evaluated by PCR, a monoclonal B-cell population was detected in 81% (39/48), 64% (9/14), and 11% (2/18), respectively. In most cases, a reproducible monoclonal IgH gene rearrangement was observed from BM and extramedullary sites. Nevertheless, in 4 cases, a different and independent monoclonal IgH rearrangement was observed during the disease course. PCR is efficient and complementary to morphologic and immunohistochemical examination for the evaluation of BCL involvement of BM biopsy specimens, especially when a reproducible rearrangement is found in 2 different samples.     

中线T细胞淋巴瘤的TCR—γ基因重排研究

目的对中线Ｔ细胞淋巴瘤的克隆性进行研究。方法用一组针对Ｔ细胞受体γ链基因Ｖ区片段的家族特异性引物和ＰＣＲ方法,对１１例（２２个标本）中线Ｔ细胞淋巴瘤病例进行了Ｔ细胞受体γ基因重排的检测。结果２２个标本中２１个有Ｔ细胞受体γ链基因的克隆性重排（９４４５％）。在９例原发灶的连续活检和１例原发灶及其转移灶的标本中均未发现增生的克隆家族的改变。结论中线Ｔ细胞淋巴瘤的病变组织中存在Ｔ细胞的单克隆性增生,为该肿瘤的Ｔ细胞起源提供了分子生物学的证据。在中线Ｔ细胞淋巴瘤的疾病过程中（包括转移灶）增生Ｔ细胞的家族未发生变化,支持肿瘤的单克隆起源学说     

Specificity of PCR-based clonality analysis of immunoglobulin heavy chain gene rearrangements for the detection of bone marrow involvement by low-grade B-cell lymphomas

A study was performed to investigate the utility of polymerase chain reaction (PCR)-based analysis of immunoglobulin heavy chain (IgH) gene rearrangements for the diagnosis of low-grade malignant B-cell lymphomas on formalin-fixed, EDTA-decalcified, and paraffin-embedded bone marrow trephine biopsies. On amplifying two DNA samples per biopsy, no reproducible monoclonal PCR result was found in 32 patients with reactive lymphoid hyperplasias. In contrast, 5/14 patients with known low-grade B-cell lymphomas, but histomorphologically and immunohistochemically lymphoma-free bone marrow, showed a reproducible monoclonal IgH gene rearrangement. In three of these cases, sequence analysis revealed completely different amplification products on comparing bone marrow and lymph node infiltrations, while in the other two cases the products were identical. In one of the latter biopsies, an unequivocal lymphoma infiltrate was found after step sectioning of the biopsy, while the other case remained lymphoma-free according to conventional criteria. A third group of three patients with known lymphomas and bone marrow findings that were suggestive but not diagnostic of bone marrow involvement showed monoclonal PCR results in all three cases, with identical sequences in bone marrow and extramedullary lymphoma infiltrates. These data suggest that a reproducible monoclonal IgH gene rearrangement is highly specific for the presence of malignant B-cells in bone marrow. In staging procedures for low-grade B-cell lymphomas, PCR yields no additional information in cases that are morphologically and immunohistochemically lymphoma-free after evaluation of representative sections. PCR may be useful in equivocal cases, provided that IgH gene rearrangements of extramedullary lymphoma and bone marrow are sequenced and compared.     

A T-cell receptor gamma polymerase chain reaction assay using capillary electrophoresis for the diagnosis of cutaneous T-cell lymphomas.

Detection of clonal T-cell receptor gamma rearrangements by polymerase chain reaction (TCRgamma PCR) followed by high-resolution electrophoresis has now become a valuable tool in the diagnosis of cutaneous T-cell lymphoma (CTCL). The identification of clonal TCRgamma PCR products by fluorescent fragment analysis (FFA) on a capillary DNA sequencer is described here and compared with an established hetero-duplex temperature gradient gel electrophoresis (HD-TGGE). Of 55 CTCL derived lesional skin samples, clonality was obtained in 46 samples by FFA (83.6%) and in 45 samples by HD-TGGE (81.8%). Of 35 control skin specimens from various nonmalignant dermatoses, two samples (pityriasis lichenoides chronica) showed clonality by both methods, one sample (chronic dermatitis) only by FFA. The sensitivity of FFA was established using three clonal T-cell lines and peripheral blood mononuclear cells. The detection limit for clonal material was approximately 1% to 2.5% in mixtures of DNA and 1% to 3% in cell dilutions. For cell dilution series, we confirmed a linear correlation between the clonal/polyclonal peak-size ratios and the portion of clonal cells up to about 10%. Thus, the initial ratio between mono-and polyclonal template is correctly displayed by FFA within that concentration range. In conclusion, FFA on capillary DNA sequencer is a well-suited separation technique in TCRgamma PCR-based clonality analysis also exhibiting quantitative properties.     

Clonality analysis of B-cell lymphoproliferative disorders using PCR and melting curve analysis.

Detection of a monoclonal immunoglobulin heavy chain gene (IgH gene) rearrangement is commonly used to support the diagnosis of B-cell non-Hodgkin lymphoma. We investigated the application of melting curve analysis as a substitute for polyacrylamide gel electrophoresis (PAGE) in the detection of monoclonal IgH gene rearrangements after PCR. A total of 140 cases were selected for this study, including 63 B-cell malignancies with a previously documented monoclonal IgH gene rearrangement. These 140 specimens were tested using PCR with melting curve analysis, and the results obtained were compared with PAGE results to calculate the relative sensitivity and specificity of melting curve analysis. Melting curve analysis detected monoclonal rearrangements in 56 of 63 specimens (relative sensitivity 88.9%). No false positives were detected (relative specificity = 100%). False-negative results were obtained only when a weak monoclonal band was present on PAGE. These results show that a positive result on melting curve analysis is specific for a monoclonal IgH gene rearrangement. However, with a sensitivity of only 88.9%, the majority of negative results would require further evaluation of the amplicons using PAGE. The application of melting curve analysis in the detection of monoclonal IgH gene rearrangements in the clinical laboratory setting is discussed.     

The relationship between primary gastric B-cell lymphoma and immunoglobulin heavy chain (IgH) gene rearrangement--a histopathological study of primary gastric lymphomas

The aim of this study was to review our primary gastric lymphoma cases according to the new WHO classifications and to investigate the histopathological features of B-cell lymphomas. In addition, B-cell monoclonality was analyzed for immunoglobulin heavy chain (IgH) gene rearrangement using the polymerase chain reaction at the site of the lymphoma lesion, transitional lesion, and the non-lymphoma lesion. Specimens resected from 31 primary gastric lymphomas were examined. There were 28 cases (90.3%) of B-cell lymphoma and three cases (9.7%) of T-cell lymphoma. The B-cell lymphomas were classified as low-grade mucosa-associated lymphoid tissue (MALT) lymphoma (LGML) (9%), high-grade MALT lymphoma (HGML) (42%), and diffuse large B-cell lymphoma (DLBCL) (29%). Histopathologically, lymphoepithelial lesions (LEL) were higher in LGML (100%) than in DLBCL (22%), with statistical significance (p < 0.05). A monoclonal pattern of IgH rearrangement was detected in LGML (50.0%), HGML (60.0%), and DLBCL (80.6%), with a statistically significant difference between LGML and DLBCL (p < 0.01). The IgH monoclonal pattern may reflect the gross appearance of lymphoma or the lymphoma infiltration depth. Superficial spreading and shallow growth in LGML may correspond to an oligoclonal pattern, and mass-forming and deep invasive growth in DLBCL may correspond to a more monoclonal pattern.     

Analysis of immunoglobulin heavy chain genes rearrangement by PCR from paraffin-embedded tissue in B-cell lymphomes in Tunisia

OBJECTIVE: To study the lymphoid clonality on Tunisian B-cell lymphomas cases by polymerase chain reaction (PCR)-based techniques using DNA from paraffin-embedded tissues. MATERIAL AND METHODS: Here we conducted a retrospective PCR clonality study on 73 cases of B-cell lymphomas and 12 reactive lymphoid tissues. The quality of DNA extracted was tested by beta-globin PCR. Consensus primers directed at the FRIII-VH and FRII-VH regions of the immunoglobulin heavy chain (IgH) gene were used to detect clonality. RESULTS: The results showed that 52 of 73 (71%) B-cell lymphomas exhibited good quality of amplifiable DNA. Clonality was found in 77% of cases using the set of primers FRIIIa/LJH/VLJH and in 65.5% using the set of primers FRIIa/LJH/VLJH. Lymphomas derived from pregerminal centre showed a high rate detection of clonal IgH gene rearrangement (100%) compared to other group of tumors derived from germinal centre or postgerminal centre (74.5%). None of the polyclonal controls gave a clonal pattern. CONCLUSION: This is the first large series of PCR clonality study of IgH gene rearrangements on B-cell lymphoma from Tunisia. Our results were similar to other reports in terms of sensitivity and specificity of these techniques and confirm the interest of that PCR for detecting clonal IgH gene rearrangements in lymphoma.     

Comparative evaluation of PCR-based methods for the assessment of T cell clonality in the diagnosis of T cell lymphoma

AIMS: The accurate diagnosis of T cell lymphoma often depends on the demonstration of a monoclonal T cell population in a lymphoproliferative disorder (LPD). The aim of this study was to evaluate four polymerase chain reaction (PCR)-based methods used to analyse T cell receptor (TCR) gene rearrangements in the assessment of T cell clonality. METHODS: DNA was tested from 23 T cell neoplasms, seven B cell non-Hodgkin's lymphomas (B-NHL), three Hodgkin's lymphomas (HL), 14 benign LPD and peripheral blood from a healthy donor. TCRgamma rearrangements were assessed by McCarthy's et al. two primer set method, Benhattar's et al. linear pre-amplification method, and Chhanabhai's et aL heteroduplex method. TCRbeta D-J rearrangements were analysed by Slack's et al. method. RESULTS: Monoclonal TCRgamma rearrangements were found in 91% (21 of 23) of T cell neoplasms using McCarthy's et al. method; in 83% (19 of 23) using Benhattar's et al. or Chhanabhai's et al. methods and monoclonal TCRbeta rearrangements were found in 43% (10 of 23) using Slack's et al. method. Monoclonality was established in all T cell neoplasms using one or more PCR methods. One follicular B-NHL had inappropriate monoclonal TCRbeta rearrangement, while the remaining B-NHL and all HL samples had no monoclonal TCRgamma or TCRbeta rearrangements. In addition to polyclonal products, one reactive lymph node had oligoclonal TCRgamma rearrangements and two others generated monoclonal products of uncertain significance. McCarthy's et al. TCRgamma method was the most sensitive in establishing T cell monoclonality, and in combination with Slack's et al. TCRbeta method, monoclonality was demonstrated in 100% of T cell neoplasms (23 of 23). CONCLUSIONS: These data indicate that multiple primer set PCR methods should obviate a need for the more expensive and time-consuming Southern blot (SB) technique and are the preferred diagnostic molecular test for assessing T cell clonality.     

Evaluation of lymphoid cell populations in cytology specimens using flow cytometry and polymerase chain reaction.

Differential diagnosis between lymphomas and reactive lymphoid proliferations often requires ancillary techniques and morphologic evaluation. Flow cytometry (FCM) and polymerase chain reaction (PCR) can aid the detection of monoclonal B-cell populations. In the present study, the sensitivity and specificity of these two methods in the study of cytology specimens were compared. Eighty-six cytologic specimens from 81 patients (lymph nodes, solid organs, and body cavities) were evaluated. These specimens were taken from three groups of patients: those who underwent an initial evaluation for suspected lymphoma; those who were previously diagnosed with B-cell lymphoma and were now evaluated for possible disease recurrence; and those who were diagnosed with a nonhematologic malignancy. Histologic diagnosis was available for 51 samples. All samples were tested by FCM for the detection of monoclonality using kappa:lambda ratio and for clonal immunoglobulin heavy chain (IgH) gene rearrangements using a single-round PCR after cytologic evaluation. Tissue morphology, FCM and PCR results, and clinical findings in specimens without histologic diagnosis were correlated. Histologic evaluation (N = 51) revealed 44 specimens with B-cell malignancy. Twenty of the 44 lymphoma specimens (45%) were accurately diagnosed in cytologic smears, 18 (41%) were classified as suspicious of lymphoma, and 6 (14%) were diagnosed as reactive. FCM had superior sensitivity compared with PCR (77% vs. 64%). Fifty-six percent of specimens with B-cell malignancy were FCM+/PCR+, 23% were FCM+/PCR-, 14% were FCM-/PCR+, and 7% were FCM-/PCR-. The combined use of FCM and PCR resulted in a diagnosis of B-cell lymphoma in 41 (93%) of 44 B-cell lymphoma specimens and increased the sensitivity of fine needle aspiration by 48%. Both FCM and PCR aid in the diagnosis of lymphoid lesions in cytology specimens, and both can detect monoclonal B-cell populations that may be interpreted in cytology smears as reactive, even by experienced cytologists. Although FCM had higher sensitivity than PCR test in the present study, their combined use should be considered because of a relatively large number of specimens that were detected as monoclonal only with PCR.     

A novel four-color PCR assay to assess T-cell receptor gamma gene rearrangements in lymphoproliferative lesions.

We describe a novel 4-color polymerase chain reaction (PCR) assay combined with GeneScan analysis to assess for T-cell receptor gamma chain gene (TCRgamma) rearrangements and evaluate its usefulness in 86 lymphoproliferative lesions. In this assay, each variable region (Vgamma) family primer is 5' end-labeled with a different fluorescent dye, allowing determination of the Vgamma family involved in each TCRgamma rearrangement. PCR products were analyzed by capillary electrophoresis. We detected clonal TCRgamma rearrangements in 60 (98%) of 61 T-cell lymphomas, 2 (15%) of 13 B-cell lymphomas, and 3 (25%) of 12 reactive lesions. These results compared favorably with conventional PCR methods using denaturing gradient gel electrophoresis, which revealed clonal TCRgamma rearrangements in 37 (90%) of 41 T-cell lymphomas, 1 (25%) of 4 B-cell lymphomas, and 2 (25%) of 8 reactive lesions. This 4-color PCR assay is at least equivalent to conventional PCR methods and is convenient, allows accurate size determination of TCRgamma rearrangements, and identifies the specific Vgamma family involved, providing more specific information about TCRgamma rearrangement.     

Identification of monoclonal B-cell populations by rapid cycle polymerase chain reaction. A practical screening method for the detection of immunoglobulin gene rearrangements.

Alternatives to Southern blot hybridization for gene rearrangement analysis are being studied because of the time, labor, cost, and radioisotopes required for this technique. We have utilized a rapid, hot air, thermocycling polymerase chain reaction (PCR) system to examine various lymphoproliferative disorders for immunoglobulin heavy chain (IgH) gene rearrangements. This unique system amplifies DNA from 10 microliters samples placed in glass capillary tubes, over a total cycle time of about 30 minutes. Amplified bands are easily visualized on ethidium bromide-stained agarose gels. Forty-one monoclonal B-cell proliferations, 27 reactive lymphoid hyperplasias, 17 T-cell lymphomas and 3 cases of Hodgkin's disease were studied. All 88 cases were fully characterized by morphologic, immunophenotypic, and genotypic (Southern blot) analyses. Each case was separately evaluated by PCR with two primer pairs: 1) IgH variable region (VH) and IgH joining region (JH) and 2) bcl-2 and JH. Thirty-four of 41 monoclonal B-cell proliferations revealed a distinct band (within an expected base pair range) with 1 or both primer combinations supporting B-cell monoclonality; the other 7 cases were considered false negatives. The 47 entities without IgH gene rearrangements detectable by Southern analysis demonstrated no amplified product or a smear of amplified DNA with no distinct band. The overall specificity of PCR was 100%, and the sensitivity was 83% when directly compared with Southern blot analysis. Although its sensitivity is currently less than optimal, PCR is a rapid and practical screening method for the detection of IgH gene rearrangements. If a positive result is obtained no further analysis is required; however, if there is a negative result, standard Southern blot analysis should be performed to definitively exclude the presence of a monoclonal B-cell population in the sample.     

B淋巴细胞增生性疑难病例中IgH基因克隆性重排的分析

目的 探讨IgH基因克隆性重排对B淋巴细胞增生性疑难病变的辅助诊断价值.方法 检测77例B淋巴细胞增生性疑难病例中IgH基因的克隆性重排情况,均采用BIOMED-2系统IgH克隆性试剂盒中FR1、FR2、FR3三组家族引物进行PCR及聚丙烯酰胺凝胶电泳,硝酸银染色后观察,并对照最终病理诊断进行分析.结果 77例病变的最终病理诊断:B淋巴细胞反应性增生12例,不能排除B淋巴细胞不典型增生或淋巴瘤20例,B细胞性淋巴瘤45例.三组中FR1、FR2和FR3至少有一个为阳性的比值分别为2/12、11/20(55%)和36/45(80%).B细胞性淋巴瘤中,FR1、FR2和FR3的阳性率分别为60%(27/45)、60%(27/45)、56%(25/45),其类型有边缘区B细胞性淋巴瘤20例(其中黏膜相关淋巴组织型结外边缘区淋巴瘤18例,结内边缘区淋巴瘤2例),弥漫性大B细胞淋巴瘤7例,滤泡性淋巴瘤7例,套细胞性淋巴瘤1例,Burkitt淋巴瘤1例,浆细胞瘤4例,不能分型5例.FR1、FR2和FR3三者检测均为阴性但仍诊断为淋巴瘤9例(20%),其中1例后来出现肝脏B细胞淋巴瘤.对IgH基因重排阳性的B淋巴细胞反应性增生和不典型增生14例的随访结果,4例重新取活检后诊断为B细胞性淋巴瘤,其中3例IgH基因重排检测为阳性.结论 联合检测IgH基因FR1、FR2和FR3克隆性重排对B淋巴细胞增生性疑难病变诊断有重要的辅助价值;对形态改变和免疫表型诊断淋巴瘤依据不足而基因重排阳性者,重取活检或随访有一定价值;对阴性病例有必要补充IgH基因重排及IgK和IgL基因重排的检测以提高检测敏感性.