Deletions of the long arm of chromosome 6 (6q) are frequent chromosome aberrations in non‐Hodgkin lymphomas (NHLs) and acute lymphoblastic leukemias (ALLs). It is presumed that one or more tumor suppressor genes are localized on 6q. By means of fluorescence in situ hybridization (FISH), we attempted to detect and delineate deletions of 6q in leukemias and lymphomas. We performed FISH on 148 cases of lymphoma and acute leukemia using a panel of 36 YAC probes distributed from 6q12 to 6q27 and a centromeric probe of chromosome 6 as internal control. Deletions of 6q that included a 7‐cM commonly deleted region in 6q21 were detected in 59 patients who had B‐ and T‐cell low‐grade and high‐grade NHL and ALL. FISH with two YAC probes flanking this region was performed on an additional 97 cases of NHL and leukemia. Deletions in 6q21 were detected in an additional 21 cases. In five cases of high‐grade B‐ and T‐cell NHL and ALL, the deletion breakpoints were located within the commonly deleted region. To define the deletion breakpoints exactly and to narrow this region further, FISH was performed with six additional YAC probes that have been physically localized within this region. A 3‐cM (4–5 Mb) commonly deleted region in 6q21 was delineated. Our study suggests that this commonly deleted region harbors a putative tumor suppressor gene involved in the pathogenesis of both low‐grade and high‐grade NHL and ALL. Genes Chromosomes Cancer 27:52–58, 2000. © 2000 Wiley‐Liss, Inc.
The described interphase FISH assay provides a reliable and routinely applicable tool for diagnosis of the t(11;14) translocation.
Secondary chromosomal aberrations in follicle center cell derived lymphomas (FCDL) usually involve gains and losses of genetic material and may be an important prognostic value. In the present study, we aimed to determine the power of comparative genomic hybridization (CGH) as compared to standard chromosome analysis (CA) to detect such secondary aberrations. The same lymph node cell suspensions prepared from 30 patients with FCDL were analyzed in parallel by CGH and CA based on R banding. In all, 73 discrepancies were found. Sixty-two imbalances were detected only by CA and 11 only by CGH. In cases with completely resolved karyotypes (n = 17), the median number of discrepancies between CGH and CA was one. However, when the karyotype was partially resolved (n = 12), the median was four (P Ͻ 0.01). Discrepant results were further studied by fluorescence in situ hybridization using locus-specific probes. These data confirm, that not only for the detection of balanced aberrations, but also for the detection of unbalanced aberrations in FCDL, standard chromosome analysis is still the 'gold standard'. In contrast, CGH is useful to detect chromosomal imbalances when no metaphases are found or no fresh material is available. Leukemia (2001) 15, 177-183.
The translocation t(8;14)(q24;q32) is the characteristic chromosomal aberration of Burkitt's-type lymphomas and leukemias (BLs). On the molecular level, the t(8;14) juxtaposes the c-myc gene in 8q24 next to the IgH locus in 14q32, resulting in overexpression of the transcription factor c-Myc. The detection of a t(8;14) is a major aim in the diagnostic process of all patients with high-grade B-cell lymphomas because treatment strategies differ between BL and other high-grade lymphomas. As chromosome analyses are sometimes hampered by the low yield or poor quality of metaphase spreads and as the application of molecular genetic techniques is limited by the distribution of the 8q24 breakpoints over a region of about some hundred kilobases, we set out to establish an interphase fluorescence in situ hybridization (FISH) assay for the detection of the t(8;14). A cosmid probe hybridizing to the IgH constant region in 14q32 was combined with a differently labeled probe of pooled cosmid clones spanning the c-myc locus in 8q24. Interphase nuclei lacking a t(8;14) show two separated signals corresponding to each probe, whereas interphase nuclei carrying a t(8;14) display a split of the c-myc probe and a colocalization of at least one of the splitted signals with the IgH probe. Based on the results of extensive control studies, the cutoff level for this stringent (type I) criteria was set at 2%. Additionally, colocalization of at least one c-myc signal with one IgH signal alone (without signal split for the c-myc probe) was used as a less stringent (type II) criteria with a cutoff limit of 11%. Nine BLs and one Burkitt-like lymphoma were investigated by this approach. Cytogenetically, all tumors contained a translocation t(8;14)(q24;q32) except for one BL, in which cytogenetic analysis had failed. In interphase FISH, all lymphomas and leukemias met the less stringent criteria for the diagnosis of the t(8;14). Additionally, in all tumors but the Burkitt-like lymphoma, a t(8;14) could be diagnosed according to the stringent criteria. The percentage of cells found to harbor the t(8;14) by FISH ranged from 4.3% to 100%. Comparison of cytogenetic and FISH results revealed a significantly lower percentage of t(8;14)+ interphase nuclei than metaphase cells (P = .004). In conclusion, the described FISH assay provides a feasible and sensitive tool for the routine detection of the translocation t(8;14) in interphase cells which might also offer new insights into the biology of high-grade B-cell lymphomas.
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