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  • Title: T cell receptor gamma (TCRG) gene rearrangements in T cell acute lymphoblastic leukemia refelct 'end-stage' recombinations: implications for minimal residual disease monitoring.
    Author: Szczepański T, Langerak AW, Willemse MJ, Wolvers-Tettero IL, van Wering ER, van Dongen JJ.
    Journal: Leukemia; 2000 Jul; 14(7):1208-14. PubMed ID: 10914544.
    Abstract:
    The T cell receptor gamma (TCRG) gene configuration was established in a large series of 126 T cell acute lymphoblastic leukemia (T-ALL) patients using combined Southern blotting (SB) and heteroduplex PCR analyses. The vast majority of TALL (96%) displayed clonal TCRG gene rearrangements, with biallelic recombination in 91% of patients. A small immature subgroup of CD3- T-ALL (n = 5) had both TCRG genes in germline configuration, three of them having also germline TCRD genes. In five patients (4%) combined SB and PCR results indicated oligoclonality. In five rearrangements detected by SB, the Vgamma gene segment could not be identified suggesting illegitimate recombination. Altogether, 83% of TCRG gene rearrangements involved either the most upstream Vgamma2 gene (including four cases with interstitial deletion of 170 bp in Vgamma2) and/or the most downstream Jgamma2.3 segment, which can be perceived as 'end-stage' recombinations. Comparative analysis of the TCRG gene configuration in the major immunophenotypic subgroups indicated that TCRgammadelta+ T-ALL display a less mature immunogenotype as compared to TCRalphabeta+ and most CD3- cases. This was reflected by a significantly increased usage of the more downstream Vgamma genes and the upstream Jgamma1 segments. Comparison between adult and pediatric T-ALL patients did not show any obvious differences in TCRG gene configuration. The high frequency, easy detectability, rare oligoclonality, and frequent 'end-stage' recombinations make TCRG gene rearrangements principal targets for PCR-based detection of minimal residual disease (MRD) in T-ALL. We propose a simple heteroduplex PCR strategy, applying five primer combinations, which results in the detection of approximately 95% of all clonal TCRG gene rearrangements in T-ALL. This approach enables identification of at least one TCRG target for MRD monitoring in 95% of patients, and even two targets in 84% of T-ALL.
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