The BIOMED-2 Concerted Action BMH4-CT98-3936 on 'Polymerase chain reaction (PCR)-based clonality studies for early diagnosis of lymphoproliferative disorders' developed standardized PCR protocols for detection of immunoglobulin (Ig) and T-cell receptor (TCR) rearrangements, including TCR beta (TCRB). As no comparable TCRB PCR method pre-existed and only a limited number of samples was tested within the BIOMED-2 study, we initiated this study for further validation of the newly developed TCRB PCR approach by comparing PCR data with previously generated Southern blot (SB) data in a series of 66 immature (ALL) and 36 mature T-cell malignancies. In 91% of cases, concordant PCR and SB results were found. Discrepancies consisted of either failure to detect SB-detected TCRB rearrangements by PCR (6.5%) or detection of an additional non-SB defined rearrangement (2.5%). In 99% of cases (99/100), at least one clonal TCRB rearrangement was detected by PCR in the SB-positive cases. A predominance of complete Vbeta-Jbeta rearrangements was seen in TCRalphabeta(+) T-cell malignancies and CD3-negative T-ALL (100 and 90%, respectively), whereas in TCRgammadelta(+) T-ALL, more incomplete Dbeta-Jbeta TCRB rearrangements were detected (73%). Our results underline the reliability of this new TCRB PCR method and its strategic applicability in clonality diagnostics of lymphoproliferative disorders and MRD studies.
B-cell clonality detection in whole tissue is considered indicative of B-cell non-Hodgkin lymphoma (NHL). We tested frozen tissue of 24 classical Hodgkin lymphomas (cHL) with a varying tumor cell load with the multiplex polymerase chain reaction (PCR) primer sets for IGH and IGK gene rearrangement (BIOMED-2). A clonal population was found in 13 cases with the IGH FR1 and/or FR2/FR3 PCRs. Using the IGK-VJ and IGK-DE PCRs, an additional six cases had a dominant clonal cell population, resulting in a detection rate of 79% in frozen tissue. Of 12 cases, also the formalin-fixed and paraffin-embedded (FFPE) tissue was tested. Surprisingly, in eight of the 12 FFPE cases with acceptable DNA quality (allowing PCR amplification of >200 nt fragments), the IGK multiplex PCRs performed better in detecting clonality (six out of eight clonal IGK rearrangements) than the IGH PCRs (four out of nine clonal rearrangements), despite a rather large amplicon size. There was no evidence of B-cell lymphoma during follow-up of 1 to 6 years and no correlation was found between the presence of a clonal result and Epstein–Barr virus in the tumor cells. Our results indicate that the present routine PCR methods are sensitive enough to detect small numbers of malignant cells in cHL. Therefore, the presence of a clonal B-cell population does not differentiate between cHL and NHL.
The BIOMED-2 group developed and approved a set of multiplex Ig and T cell receptor PCR primers and successfully applied these to different well-defined WHO lymphoma entities with unprecedented high frequencies of malignant cases showing clonality. This approach has now become a worldwide standard of clonality testing in lymphoproliferations. While the clonality testing and assessment by GeneScan and/or heteroduplex analysis has become relatively easy to perform, the evaluation of the obtained gene rearrangement patterns can be difficult. In this review, we will address specific aspects of clonality testing, concerning both the practical phase as the evaluation of the obtained gene rearrangement patterns, which will help to overcome problems that can be encountered in the routine diagnostic setting.
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