scholarly journals Molecular diagnosis of B- and T-cell lymphomas: fundamental principles and clinical applications

1997 ◽  
Vol 43 (10) ◽  
pp. 1814-1823 ◽  
Author(s):  
William N Rezuke ◽  
Evelyn C Abernathy ◽  
Gregory J Tsongalis
Keyword(s):  
T Cell ◽  
Residual Disease ◽  
Molecular Diagnostic ◽  
Basic Principles ◽  
Diagnostic Assays ◽  
Lymphoid Malignancies ◽  
T Cell Lymphomas ◽  
Polymerase Chain ◽  
T Cell Clonality ◽  
Cell Clonality

Abstract Molecular diagnostic assays have become routine in the evaluation of lymphoid malignancies. Both Southern transfer and polymerase chain reaction (PCR) technologies are used to assess for B- and T-cell clonality, the presence of rearrangements involving protooncogenes such as bcl-1 and bcl-2, and the monitoring of minimal residual disease. We review the fundamentals of B- and T-cell ontogeny as well as the basic principles of the Southern transfer and PCR assays and their applications to the diagnosis of lymphoid malignancies.

scholarly journals Utility of a Simple and Robust Flow Cytometry Assay for Rapid Clonality Testing in Mature Peripheral T-Cell Lymphomas

2019 ◽  
Vol 151 (5) ◽  
pp. 494-503 ◽  
Author(s):  
Natasha D Novikov ◽  
Gabriel K Griffin ◽  
Graham Dudley ◽  
Mai Drew ◽  
Vanesa Rojas-Rudilla ◽  
...  
Keyword(s):  
Flow Cytometry ◽  
T Cell ◽  
Peripheral Blood ◽  
T Cell Clones ◽  
Flow Cytometric ◽  
T Cell Lymphomas ◽  
Cell Clones ◽  
T Cell Clonality ◽  
Cell Clonality ◽  
Peripheral T Cell Lymphomas

AbstractObjectivesFlow cytometry immunophenotyping is limited by poor resolution of T-cell clones. A newly described antibody was recently used to distinguish normal peripheral blood T cells from malignant T-cell clones. Here, we evaluate this antibody as a new diagnostic tool for detecting T-cell clonality in mature peripheral T-cell lymphomas.MethodsImmunostaining for the T-cell receptor β chain constant region 1 (TRBC1) along with routine T-cell markers was performed on 51 peripheral blood and two bone marrow samples submitted to the flow cytometry laboratory for suspected T-cell malignancy.ResultsTRBC immunophenotyping identified malignant T-cell clones with 97% sensitivity and 91% specificity. Findings correlated with molecular T-cell clonality testing. In cases with equivocal molecular results, TRBC1 immunophenotyping provided additional diagnostic information.ConclusionsTRBC1 flow cytometric immunophenotyping is a robust and inexpensive method for identifying T-cell clonality that could easily be incorporated into routine flow cytometric practice.

scholarly journals Clonal Rearrangements and Malignant Clones in Peripheral T-cell Lymphoma

Acta Naturae ◽  
2015 ◽  
Vol 7 (3) ◽  
pp. 116-125 ◽  
Author(s):  
Yu. V. Sidorova ◽  
N. G. Chernova ◽  
N. V. Ryzhikova ◽  
S. Yu. Smirnova ◽  
M. N. Sinicina ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cell ◽  
Residual Disease ◽  
Cell Lymphoma ◽  
Clonal Evolution ◽  
T Cell Lymphoma ◽  
Gene Rearrangements ◽  
Peripheral T Cell Lymphoma ◽  
T Cell Clonality ◽  
Cell Clonality

Aim: To assess the feasibility and informative value of T-cell clonality testing in peripheral T-cell lymphoma (PTCL). Patients and methods: Biopsies of involved sites, blood, and bone marrow samples from 30 PTCL patients are included in the study. Rearranged TCRG and TCRB gene fragments were PCR-amplified according to the BIOMED-2 protocol and analyzed by capillary electrophoresis on ABI PRISM 3130 (Applied Biosystems). Results: TCRG and TCRB gene clonality assay was valuable in confirming diagnosis in 97% of PTCL patients. T-cell clonality assay performed on blood or bone marrow samples reaffirmed lymphoma in 93% of cases, whereas morphological methods were informative in 73% of cases only. We observed multiple TCRG and TCRB gene rearrangements, loss of certain clones in the course of the disease, as well as acquisition of new clones in 63% of PTCL cases, which can be attributed to the genetic instability of the tumor. Conclusion: TCRG and TCRB gene clonality assay is beneficial for the diagnosis of PTCL. However, the presence of multiple clonal rearrangements should be considered. Clonal evolution in PTCL, particularly acquisition of new clones, should not be treated as a second tumor. Multiple TCRG and TCRB gene rearrangements may interfere with minimal residual disease monitoring in PTCL.

scholarly journals Detection of T-Cell Clonality in Bone Marrow in Peripheral T-Cell Lymphoma, Not Otherwise Specified

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 5020-5020
Author(s):  
Natalia G. Chernova ◽  
Yulia V. Sidorova ◽  
Natalia V. Ryzhikova ◽  
Svetlana Yu. Smirnova ◽  
Hunan L. Julhakyan ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cell ◽  
Residual Disease ◽  
Cell Lymphoma ◽  
Bone Marrow Involvement ◽  
Initial Therapy ◽  
Peripheral T Cell Lymphoma ◽  
T Cell Clonality ◽  
Cell Clonality ◽  
Minimal Residual

Abstract Introduction: Peripheral T-cell lymphoma, unspecified (PTCL, NOS) is a tumor of mature T-lymphocytes characterized by aggressive course and low response rate to CHOP-like therapy. Bone marrow involvement in PTCL, NOS is detected by histological investigation in about 20-40% of patients and it is considered to be a poor prognostic factor. Importance of T-cell clonality examination in bone marrow as a prognostic and staging factor has been insufficiently studied. Aim: In order to evaluate the significance T-cell receptor gene γ- and β-chains (TCRG and TCRB) rearrangements for identification of bone marrow involvement; to estimate its value for staging and prognosis; to evaluate the significance of T-cell clonality persistence in bone marrow after initial therapy in patients with PTCL, NOS. Patients and methods: Bone marrow samples of 27 patients with primary PTCL, NOS (median age 62 years, range 32-77) have been obtained from 2006 till 2014 and were analyzed retrospectively. Morphological examination was performed for all bone marrow samples. Detection of T-cell clonality by revealing rearrangements of TCRB and TCRG were performed by PCR in bone marrow samples of patients before and after initial chemotherapy. Results: Bone marrow involvement was revealed by histological investigation in 22 (81%) of patients. T-cell clonality was detected by rearrangements of TCRG or TCRB in 26 (96%) patients, including 4 of 5 patients without bone marrow involvement by histology. Rearrangements of TCRG and TCRB were detected in 24 (89%) and 26 (96%) of patients, respectively. Rearrangements of TCRB were observed without rearrangements of TCRG in 2 cases. Interestingly, we detected more than 2 clonal rearrangements present simultaneously in 33% of cases. For monitoring minimal residual disease the examination of T-cell clonality in bone marrow samples was performed in 15 of 27 patients after initial therapy; all these 15 patients achieved complete remission. Persistence of T-cell clonality was observed in 14 of 15 patients after treatment, disease progression was noted in 1-3 months in all these cases. Conclusion: The examination of T-cell clonality in the bone marrow seems to be important and necessary for staging, monitoring minimal residual disease. Detection of T-cell clonality in bone marrow allows revealing its involvement even without morphological features in primary patients with PTCL, NOS. Persistence of clonal rearrangements in bone marrow after initial therapy shows continuing lesion and necessity for timely therapy escalation for patients with PTCL, NOS. Disclosures No relevant conflicts of interest to declare.

DNA Technology in the Clinical Laboratory

1999 ◽  
Vol 123 (12) ◽  
pp. 1151-1153
Author(s):  
Frederick L. Kiechle
Keyword(s):  
Polymerase Chain Reaction ◽  
T Cell ◽  
Genetic Polymorphisms ◽  
Beaumont Hospital ◽  
Platelet Glycoprotein ◽  
Chain Reaction ◽  
Genomic Amplification ◽  
Polymerase Chain ◽  
T Cell Clonality ◽  
Cell Clonality

Abstract Objectives.—To review the advances in clinically useful molecular biological techniques and to identify their applications in clinical practice, as presented at the Eighth Annual William Beaumont Hospital Symposium. Data Sources.—The 10 manuscripts submitted were reviewed, and their major findings were compared with literature on the same topic. Study Selection.—Two manuscripts addressed specimen (nucleic acid) stability, 2 described novel analytic approaches, 3 discussed detection of B- or T-cell clonality in lymphoproliferative disorders, and 3 reported the frequency of a variety of genetic polymorphisms found in cardiac disorders. Data Synthesis.—DNA from dried blood spots is stable and may be purified rapidly for amplification and mutation analysis. RNA is much less stable, and a variety of methods may be used to reduce ribonuclease degradation of enteroviral RNA. False-negative reactions may be reduced by genomic amplification of ligated padlock probes by cascade rolling circle or polymerase chain reaction. A multiplex polymerase chain method using fluorescence-labeled products that separate both the wild-type and mutant hemochromatosis gene alleles by capillary gel electrophoresis represents another approach for detecting the 2 major missense mutations (C282Y and H63D) in hemochromatosis. Southern blotting and polymerase chain reaction have been used to detect B- and T-cell clonality in lymphoproliferative diseases, including mantle cell lymphoma and lymphoma of the breast. Genetic polymorphisms in a variety of coagulation factors and platelet glycoprotein IIIa are associated with ischemic heart disease. Conclusions.—As the Human Genome Project continues to define disease-associated mutations, the number of clinically useful molecular pathologic techniques and assays will expand. Clinical outcome analysis is still required to document a decrease in the patient's length of stay to offset the cost of introducing molecular biological assays in the routine clinical pathology laboratory.

scholarly journals Anti-TRBC1 Antibody-Based Flow Cytometric Detection of T-Cell Clonality: Standardization of Sample Preparation and Diagnostic Implementation

Cancers ◽  
2021 ◽  
Vol 13 (17) ◽  
pp. 4379
Author(s):  
Noemí Muñoz-García ◽  
Margarida Lima ◽  
Neus Villamor ◽  
F. Javier Morán-Plata ◽  
Susana Barrena ◽  
...  
Keyword(s):  
T Cell ◽  
Residual Disease ◽  
High Specificity ◽  
Accurate Method ◽  
Cell Receptor ◽  
Flow Cytometric ◽  
Useful Flow ◽  
Constant Domains ◽  
T Cell Clonality ◽  
Cell Clonality

A single antibody (anti-TRBC1; JOVI-1 antibody clone) against one of the two mutually exclusive T-cell receptor β-chain constant domains was identified as a potentially useful flow-cytometry (FCM) marker to assess Tαβ-cell clonality. We optimized the TRBC1-FCM approach for detecting clonal Tαβ-cells and validated the method in 211 normal, reactive and pathological samples. TRBC1 labeling significantly improved in the presence of CD3. Purified TRBC1+ and TRBC1− monoclonal and polyclonal Tαβ-cells rearranged TRBJ1 in 44/47 (94%) and TRBJ1+TRBJ2 in 48 of 48 (100%) populations, respectively, which confirmed the high specificity of this assay. Additionally, TRBC1+/TRBC1− ratios within different Tαβ-cell subsets are provided as reference for polyclonal cells, among which a bimodal pattern of TRBC1-expression profile was found for all TCRVβ families, whereas highly-variable TRBC1+/TRBC1− ratios were observed in more mature vs. naïve Tαβ-cell subsets (vs. total T-cells). In 112/117 (96%) samples containing clonal Tαβ-cells in which the approach was validated, monotypic expression of TRBC1 was confirmed. Dilutional experiments showed a level of detection for detecting clonal Tαβ-cells of ≤10−4 in seven out of eight pathological samples. These results support implementation of the optimized TRBC1-FCM approach as a fast, specific and accurate method for assessing T-cell clonality in diagnostic-FCM panels, and for minimal (residual) disease detection in mature Tαβ+ leukemia/lymphoma patients.

scholarly journals Single Capture High Throughput Sequencing Assay for Combined V(D)J Clonality Analysis and Oncogene Mutations in the Diagnosis of T and B Lymphoid Malignancies

Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 2404-2404
Author(s):  
Yannick Le Bris ◽  
Audrey Ménard ◽  
Anne Moreau ◽  
Nowenn Le Lan ◽  
Céline Bossard ◽  
...  
Keyword(s):  
T Cell ◽  
B Cell ◽  
High Throughput Sequencing ◽  
Cell Lymphoma ◽  
Lymphocytic Leukemia ◽  
Lymphoid Malignancies ◽  
Clonality Analysis ◽  
T Cell Malignancies ◽  
T Cell Clonality ◽  
Cell Clonality

Abstract Introduction The diagnosis of B and T cell malignancies relies on the demonstration of B-cell (BCR) or T-cell (TCR) antigen receptor clonality. This can be studied through the analysis of V(D)J rearrangements of BCR and TCR genes by PCR (van Dongen Leukemia 2003) or, more recently, by high-throughput sequencing (HTS). Amplification of a clonal population with a "primers approach" could fail in case of hybridization problems due to too fragmented DNA, somatic mutations or polymorphic variations. Here we evaluated the performance of a HTS capture system for the analysis of B and T-cell clonality in clinical samples from mature T or B malignancies. We further combined this technology to concomitant sequencing of oncogenes of interest. Patients and Methods DNA was extracted from 58 tumoral samples from fresh/frozen (FF) cells or tissues or formalin-fixed paraffin-embedded tissue (FFPE) (n=19). These samples comprised various T-cell [i.e. 1T-cell prolymphocytic leukemia, 1 T large granular lymphocytic leukemia, 2 Sézary syndrome, 4 peripheral T-cell lymphoma not otherwise specified, 14 angioimmunoblastic T-cell lymphoma] or B-cell [i.e. 14 chronic lymphocytic leukemia, 1 mantle cell lymphoma, 5 diffuse large B-cell lymphoma, 1 grey-zone lymphoma, 13 Hodgkin lymphoma, 1 Poppema, 2 Waldenström and 1 multiple myeloma] malignancies. The Biomed-2 PCR technique was used as standard for assessing the performance of TRG, IGH and IGK clonality analysis. An extensive panel of capture probes was designed (SureSelect XT HS2 DNA system, Agilent Technologies) that covered the variable (V), + diversity (D) and junction (J) segments of the IGH, IGK, TRG, TRB loci and diagnostic/theranostic genes of interest i.e. B2M, BTK, CARD11, CD28, DNMT3A, IDH2, JAK3, PLCG1, PLCG2, ROHA, SOCS1, STAT3, STAT5B, STAT6, TET2, TNFAIP3, TP53. Paired-End sequencing was performed on a MiSeq system (Illumina) in 300, 500 and 600 cycles. Analysis of clonality profiles was performed using Vidjil software and SeqOne. Results HTS runs resulted in a median total read count of 1,6M (0.7-2.9) per sample. V(D)J rearrangements were identified with a median of 1503 reads (189-6824) per sample. Five samples were excluded because less than 300 rearranged reads were obtained. The number of rearranged reads and of clonotypes identified are influenced by the number of sequencing cycles (300<500 or 600) but not by the quality of DNA (FFPE vs FF). Analyses of tumoral samples with HTS versus PCR were compared. For the IGH locus (n=47), comparable PCR/HTS clonal (n=22) and polyclonal (PCL, n=20) profiles were identified. One discordant case showed a clonal PCR profile and a PCL HTS profile but the IGK was clonal. For the IGK locus (n=23), 10 clonal and 12 PCL cases were similar with both techniques. One case appeared discordant with a PCL PCR profile but a clonal HTS profile. For the TRG locus (n=31), PCR and HTS profiles were similar in 14 clonal, 5 oligoclonal and 9 PCL cases respectively. Three cases were discordant with oligoclonal PCR profiles but a clonal HTS profile. Overall in the 38 cases of B-cell malignancies, 27 and 11 cases had a concordant B-cell clonal or PCL profile with PCR and HTS. Among PCL cases, only one was discordant with a clonal HTS profile. This case and 3 other PCL cases were Hodgkin lymphomas which all disclosed another mutation (i.e. TP53, TNFAIP3, SOCS1). Of the 20 cases of T-cell malignancies, 14 displayed a clonal TRG profile with PCR and HTS. Among them, 13 showed oncogene mutations that confirmed the oncogenic nature of the clonal proliferation. Among 6 patients with a non-clonal PCR TRG profile, two cases of AITL and T-LGL had a discordant clonal TRG HTS profile and both also had specific mutations (SOCS1, RHOA and STAT3 respectively). Two other AITL samples showed a T-PCL profile with PCR and HTS but also had a mutation/CNV (RHOA, SOCS1). Conclusion A very good performance of B and T cell clonality assessment was obtained here with capture-HTS compared to Biomed-2 PCR. The combined identification of mutation/CNV allowed to confirm the malignant character in cases of clonal or PCL lymphoproliferations, while concomitantly specifying the type of lymphoproliferative disorder. The combined capture-HTS of B and T repertoires and oncogenes of diagnostic or theranostic interest thus appears as an efficient, accurate and useful approach for the diagnosis of mature B and T lymphoid malignancies in clinical practice. Disclosures No relevant conflicts of interest to declare.

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