Automated detection of residual cells after sex-mismatched stem-cell transplantation - evidence for presence of disease-marker negative residual cells.

BACKGROUND: A new chimerism analysis based on automated interphase fluorescence in situ hybridization (FISH) evaluation was established to detect residual cells after allogene sex-mismatched bone marrow or blood stem-cell transplantation.Cells of 58 patients were characterized as disease-associated due to presence of a bcr/abl-gene-fusion or a trisomy 8 and/or a simultaneous hybridization of gonosome-specific centromeric probes. The automatic slide scanning platform Metafer with its module MetaCyte was used to analyse 3,000 cells per sample. RESULTS: Overall 454 assays of 58 patients were analyzed. 13 of 58 patients showed residual recipient cells at one stage of more than 4% and 12 of 58 showed residual recipient cells less than 4%, respectively. As to be expected, patients of the latter group were associated with a higher survival rate (48 vs. 34 month). In only two of seven patients with disease-marker positive residual cells between 0.1-1.3% a relapse was observed. Besides, disease-marker negative residual cells were found in two patients without relapse at a rate of 2.8% and 3.3%, respectively. CONCLUSION: The definite origin and meaning of disease-marker negative residual cells is still unclear. Overall, with the presented automatic chimerism analysis of interphase FISH slides, a sensitive method for detection of disease-marker positive residual cells is on hand.

Cytogenetic characterisation and proteomic profiling of the Imatinib-resistant cell line KCL22-R.

Approximately 30% of chronic myeloid leukemia patients show initially no response to Imatinib, a potent inhibitor of BCR-ABL. This intrinsic resistance may be due to BCR-ABL-independent cell growth. Here we analysed the cytogenetic anomalies and the proteomic profiling in KCL22-S and KCL22-R, two Imatinib-sensitive and -resistant derivative cell lines of KCL22. A tetrasomy 8 and a non-reciprocal translocation +der(6)t(6;13)(p11.1;q12) were found only in KCL22-R as new evolved anomalies. Chromosome der(6)t(6;13) showed four variants differing in the chromatin content of 13q14-13qter including the retinoblastoma gene. Due to these sub-clones, approximately 65-79% of the Imatinib-treated KCL22-R cells showed a disomy and 21-35% a monosomy for 13q14. Imatinib removal reduced the main clone to approximately 20% in the benefit of the monosomic sub-clones. This was accompanied by an increased apoptosis rate and was revertible by Imatinib re-treatment. This effect may be connected with genes located in 13q14-qter. Proteomic profiling of the cell lines performed with ProteinChip technology (SELDI) revealed several differentially expressed proteins (n=45). In summary, we demonstrate here the complex changes on the cytogenetic and proteomic level which could be caused by Imatinib and the resistance resulting from it.