The so-called TCR-delta-deleting elements, deltaRec and psiJ alpha, flank the major part of the TCR-delta gene complex. By rearranging to each other, the deltaRec and psiJ alpha gene segments delete the TCR-delta gene complex and prepare the allele for subsequent TCR-alpha rearrangement. This intermediate rearrangement is thought to be a specific rearrangement event. In our studies on TCR-delta deletion mechanisms, we identified several T cell acute lymphoblastic leukemias (T-ALL) with continuous activity of the deltaRec-psiJ alpha rearrangement process. Extensive Southern blot, PCR, and sequencing analyses on the coding joints as well as the signal joints of the deltaRec-psiJ alpha rearrangements in these patients allowed us to prove that this continuous rearrangement activity occurred in the leukemic cells and that these cells, therefore, represent a polyclonal subpopulation within the otherwise monoclonal T-ALL. In additional studies, we also identified a T cell line (DND41) with continuous activity of the deltaRec-psiJ alpha rearrangement process. Our data suggest that the ongoing deltaRec-psiJ alpha gene rearrangements predominantly occur in T cells that cannot express a functional TCR-gammadelta, due to biallelic out-of-frame TCR-delta and/or TCR-gamma gene rearrangements. The described T-ALL and the T cell line can serve as an experimental model in further studies on the regulatory elements involved in the specific deletion of the TCR-delta gene complex.