Chromosome alterations in breast carcinomas: frequent involvement of DNA losses including chromosomes 4q and 21q.

Comparative genomic hybridization was applied to map DNA gains and losses in 39 invasive ductal breast carcinomas. Frequent abnormalities included gains on chromosomal regions 1q, 8q, 11q12-13, 16p, 19, 20q and X as well as frequent losses on 1p, 5q, 6q, 9p, 11q, 13q and 16q. Furthermore, frequent losses on 4q (20 cases) and 21q (14 cases) were found for the first time in this tumour type. High copy number amplifications were observed at 8q12-24, 11q11-13 and 20q13-ter. Highly differentiated tumours were associated with gains on 1q and 11q12-13 along with losses on 1p21-22, 4q, 13q, 11q21-ter. Undifferentiated breast carcinomas were characterized by additional DNA imbalances, i.e. deletions of 5q13-23, all of chromosome 9, the centromeric part of chromosome 13 including band 13q14 and the overrepresentation of chromosome X. We speculate that these changes are associated with tumour progression of invasive ductal breast cancer.     

Hibernomas are characterized by rearrangements of chromosome bands 11q13-21

Cytogenetic analysis revealed structural rearrangements of 11q13-21 in 9 lipogenic tumors—4 hibernomas, 4 typical lipomas and I mixed myxoid and well-differentiated liposarcoma. Two hibernomas and all lipomas simultaneously showed aberrations attributable to previously recognized cytogenetic subgroups among benign adipose tissue tumors, i.e., supernumerary ring chromosomes or rearrangements of 6p, 12q13-15, or 13q. The sole anomaly in the liposarcoma was a 4-way translocation t(9;11;22;12)(q21;q13;q11;q13), an aberration that has not previously been detected in either myxoid or well-differentiated liposarcomas. Together with our 4 cases, a total of 7 cytogenetically aberrant hibernomas have been reported. Five tumors have shown rearrangements of 11q13 and 2 of 11q21, indicating that this segment of chromosome 11 harbors one or more genes of importance in hibernoma development. Rearrangements of 11q13-21 also appear to be frequent in typical lipomas; a total of 8 typical lipomas with 11q13-21 changes have been described, including those in our series. In all but I, however, breakpoints were also found in 6p, 12q13-15, or 13q.     

Chronic lymphocytic leukemia with 6q- shows distinct hematological features and intermediate prognosis.

Cytogenetic and fluorescence in situ hybridization studies were successfully performed in 217 chronic lymphocytic leukemia (CLL). In all, 13 patients with 6q21 deletion were identified and characterized in comparison with 92 patients with 'favourable' karyotype (normal or 13q-), 69 cases with 'intermediate risk' (1-2 anomalies) and 43 cases with 'unfavourable' karyotype (complex, 11q- or 17p-). Six out of 13 cases with 6q- showed an excess of atypical lymphocytes, a finding confirmed at the histologic level; >20% CD38+ cells were seen in 5/6 cases. IGVH mutational status revealed >98% homology to the germline sequence in 4/10 cases. When compared with the 'favourable' group, patients with 6q- showed a higher white blood cell (WBC) count, frequent splenomegaly, atypical morphology, CD38+ and short time from diagnosis to first treatment and short survival. A higher median WBC count was found in the 6q- group vs the intermediate-risk group; survival was shorter in the unfavourable group. To ascertain if the 6q- anomaly was an independent factor predicting for an inferior outcome among those patients with 'favourable' cytogenetics, we performed an analysis of prognostic factors in 105 patients (92 'favourable' plus 13 with 6q-), showing that the 6q- chromosome maintained its prognostic significance at multivariate analysis (P=0.02) along with stage (P=0.01). We conclude that CLL with 6q- is characterized by a high incidence of atypical morphology, classical immunophenotype with CD38 positivity and intermediate incidence of IGVH somatic hypermutation. Clinicobiological features and outcome show that this cytogenetic subset of CLL should be allocated in an intermediate-risk category.     

Cytogenetic characterization of putative human myeloblastic leukemia cell lines (ML-1, -2, and -3): origin of the cells

Cytogenetic studies were performed on ML cell lines (ML-1, -2, and -3), as well as on the leukemic cells of a patient from whom the ML cells were derived. The ML-1 cell line showed numerical and structural cytogenetic changes, i.e., -Y, 1p-, 6q-, 11q-, +12, +13q+, 14q-, and 17q-. The ML-2 cell line had two copies of the 13q+, whereas the ML-3 cells contained three clones, i.e., 47,X,-Y,1p-,6q-,11q-,+12,+13q+, 48,X,-Y,1p-,6q-,+6q-,11q-,+12,+13q+, and 49,X,-Y,1p-,6q-,+6q-, 11q-,+12,+13q+,+13q+. The neoplastic cells, when the patient was diagnosed as having T-cell malignant lymphoma (Stage IV), had the 11q- and 13q+. The leukemic cells in a subsequent acute myeloid leukemia phase of this patient contained structural (1p- and 6q-) and numerical (+12, -Y and +2D-group chromosomes: two 13q+) changes in addition to the 11q-. These findings suggest that the acute myeloid leukemic cells of this patient probably originated from the neoplastic cells of the preceding T-cell lymphoma, and that the chromosome changes originally seen in the lymphoma cells were preserved in the established ML cell lines, though the cells of these lines had myeloid characteristics.     

Deletions in chromosome arms 3p and 11q are new prognostic markers in localized and 4s neuroblastoma.

PURPOSE: To find new nonrandom chromosomal changes in neuroblastoma (NB) with a potential to forecast the patient's outcome, alterations in chromosome arms 3p and 11q were investigated. EXPERIMENTAL DESIGN: Frequency and prognostic potential of 3p and 11q alterations in 144 NBs were analyzed using interphase fluorescence in situ hybridization with DNA probes for 3p26 and 11q23. Aberrations were defined as deletion (monosomy of a specific region) or imbalance (at least two intact and additional 3p26- or 11q23-deleted chromosomes). RESULTS: Forty-two of 144 cases (29%) displayed 11q alterations (21% deletions, 8% imbalances). Most aberrations were associated with stage 4 disease (28 of 59, 47%) but were also present in localized and 4s tumors (14 of 85, 16%; P = 0.007). Patients with 11q deletion/imbalance were significantly older at diagnosis (P < 0.001). Changes in 3p were detected in 26 of 144 (18%) samples (15% deletions, 3% imbalances). These alterations were also associated with stage 4 [20 of 59 (34%) versus 6 of 85 (7%) in stages 1-3 and 4s, P = 0.007], and the median age was increased (P < 0.001). Aberrations in both chromosomes were highly associated with each other (P < 0.001). MYCN amplification (MNA) was detected in 10% and 12% of tumors with 11q and 3p alterations, and changes in 1p36 occurred in 13% and 26% of the 3p- and 11q-aberrant tumors. MYCN amplification and 11q deletion/imbalance tended to show an inverse correlation (P = 0.07) as well as 1p and 3p deletion/imbalance (P = 0.07). Patients with 3p and 11q abnormalities in localized/4s tumors showed an inferior outcome compared with those without these alterations (P = 0.002 and P = 0.0027, respectively), in particular in MYCN single copy tumors (P < 0.0001 and P = 0.0006, respectively). CONCLUSION: Alterations in 3p and 11q are frequent nonrandom aberrations in NB and define a new high-risk subgroup in MYCN single copy stage 1-3 and 4s disease.     

Nonrandom secondary chromosome-aberrations in liposarcomas with t(12, 16)

Ten liposarcomas were analyzed cytogenetically after short-term culturing. Eight tumors had a t(12;16) (q13;p11) and two tumors had complex translocations involving chromosomes 7, 12, and 16 and 2, 9, 12, 16 and 20, respectively. Among the secondary aberrations seen in five tumors, +8 was found in two tumors and i(7)(q10) in four tumors. Trisomy 8 has previously been described as a nonrandom secondary aberration in myxoid liposarcoma, but i(7q) has only been reported in a single case before. All recurrent chromosome aberrations reported in liposarcomas with recombination between 12q13 and 16p11 (42 cases) were surveyed and compared with their frequencies in liposarcomas without this recombination (33 cases). Trisomy 5 and 8 were found in both tumor groups, whereas +19, t(3;15)(p23;q15), del(6)(q21), i(7q), and rearrangements of 1p11 and 2q35 were found exclusively in tumors with 12q13 and 16p11 aberrations.     

Cytogenetic findings in malignant peripheral nerve sheath tumors

Clonal chromosome aberrations were detected in 8 short-term cultured malignant peripheral nerve sheath tumors (MPNST). Seven had a near-triploid chromosome number and I was in the hyperhaploid-hypodiploid range. No recurrent structural rearrangements were found; the bands most frequently involved (3 tumors) were 7p11, 12p13 and 14q11. The most common numerical changes were loss of a sex chromosome (all tumors) and loss of at least 1 copy of chromosomes 8, 16 and 22 (4 tumors). Pooling our data with those on the 20 previously published MPNST with abnormal karyotypes, we found that the chromosome number has often been in the triploid range (12 tumors), with stem line variation between 34 and 270. All chromosome arms, except 22p and the Y chromosome, were involved in recombinations. The most frequently rearranged bands were 7p22 (6 tumors) and 1p21, 7p11 and 14q11 (5 tumors each). Most numerical and unbalanced structural aberrations have led to loss of genetic material, in particular from Xq26-qter (13 tumors); 11q22-qter and 13p (12 tumors); 9p22-pter, 11p13-pter, 17p and 17q11-21 (11 tumors); 1p22-32 and 1p34-pter (10 tumors) and 6q25-qter and chromosome 16 (9 tumors). © 1995 Wiley-Liss, Inc.     

Korean patients with chronic lymphocytic leukemia show the similar types of chromosomal aberrations as those in Europe and North America

Chronic lymphocytic leukemia (CLL) is frequent in the West, but rare in Korea. In this study, the frequency of chromosome aberration in Korean CLL patients was examined by applying interphase fluorescence in situ hybridization (FISH). Conventional cytogenetic test and FISH were performed on bone marrow aspirates obtained from 16 CLL patients. By applying DNA probes (Vysis, Downers Grove, IL, USA), the deletion in 11q22-23, 13q14, 13q34, and 17p13, and trisomy 12 were examined. With FISH, molecular cytogenetic aberration was detected in 10 of 16 patients [63%, 95% confidence interval (CI) 39-86], whereas with conventional cytogenetic test, chromosomal aberration was detected only in 2 out of 13 cases (15%, 95% CI 0-35). In total, the cases with one or more chromosomal aberrations were 11 out of 16 cases (69%, 95% CI 46-92). The most frequently detected aberration was the 13q14 deletion (69%, 95% CI 44-94), followed by trisomy 12 (19%, 95% CI 0-38) and 11q22 deletion (14%, 95% CI 0-33). No deletion in 17p13 was observed. In conclusion, CLL in Korean is a heterogeneous genetic disorder, showing similar genetic changes in Europe and North America.     

Deletions at chromosome 2q and 12p are early and frequent molecular alterations in bronchial epithelium and NSCLC of long-term smokers

Most lung cancer is attributed to long-term smoking. In order to define chromosomal regions with an accumulation of smoking-related early molecular damage, we applied 15 microsatellite markers at 8 chromosomal regions (2q35-q36, 3p21.3, 3p14.2, 3p25, 10q11.2, 11p14-15, 12p13.1-p12.3 and 12q14) in an allelotyping study. We studied samples of 42 patients with primary non-small cell lung cancer (NSCLC) (25 squamous cell carcinomas, 13 adenocarcinomas, 2 large cell and 2 bronchioalveolar carcinomas) to compare the frequency of allelic loss in cancer tissue of smokers with matched bronchial epithelium. As a control group we used 11 samples of non-smokers. In NSCLC we found significantly higher frequencies of loss of heterozygosity (LOH) than in matched tumor free bronchial epithelium (p = 0.007). Most frequently, allelic loss was detected in NSCLC at chromosome 3p [3p25 (46%), 3p21.3 (45%), 3p14 (40%)], at 2q35 (24%), 12p12 (29%) and 12q14 (13%), but infrequently at 10q11 (7%) and 11p14-15 (5%). In corresponding histological normal bronchial epithelium, the highest percentage of LOH was found at chromosome 3p [3p21 (17%), 3p25 (12%), 3p14 (9%)] and chromosome 2q (2q35-q36) (17%) and 12p (12p12-p13) (12%). LOH in histologically normal bronchial epithelium was significantly associated with long-term smoking (p = 0.048), especially at chromosome 12p12 (p = 0.018). Our results demonstrate two further deletion hot spots at the chromosomal region 2q35-q36 and 12p12-p13 in tumor tissue of NSCLC and matched histological normal bronchial epithelium of long-term smokers, reflecting a phenomenon referred to as 'field cancerization'. These chromosomal regions represent interesting loci for potential NSCLC associated tumor suppressor genes and could be useful as screening markers for molecular risk assessment of smokers.     

Deletion of chromosome 11p15, p12, q22, q23-24 loci in human prostate cancer

Loss of heterozygosity (LOH) on chromosome 11 is frequently altered in various epithelial cancers. The present study was designed to investigate LOH on chromosome 11 in microdissected samples of normal prostatic epithelium and invasive carcinoma from the same patients. For this purpose, DNA was extracted from the microdissected normal and tumor cells of 38 prostate cancers, amplified by polymerase chain reaction PCR and analyzed for LOH on chromosome 11 using 9 different polymorphic DNA markers (D11S1307, D11S989, D11S1313, D11S898, D11S940, D11S1818, D11S924, D11S1336 and D11S912). LOH on chromosome 11 was identified in 30 of 38 cases (78%) with at least one marker. Four distinct regions of loss detected were: 1) at 11p15, at loci between D11S1307 and D11S989; 2) at 11p12, on locus D11S131 (11p12); 3) at 11q22, on loci D11S898, D11S940 and D11S1818; and 4) at 11q23-24, on loci between D11S1336 and D11S912. We found 25% of the tumors with LOH at 11p15; 39% had LOH at 11p12; 66% had LOH at 11q22; and 47% had LOH at 11q23-24. These deletions at 11p15, 11p12, 11q22 and 11q23-24 loci were not related to the stage or grade of the tumor. Int. J. Cancer 72:283–288, 1997. © 1997 Wiley-Liss, Inc.     

Loss of chromosome 11q21-23.1 and 17p and gain of chromosome 6p are independent prognostic indicators in B-cell non-Hodgkin's lymphoma.

Comparative genomic hybridization (CGH) was employed to study chromosomal aberrations in relation to cell proliferation, apoptosis, and patient survival in 94 cases of B-cell non-Hodgkin's lymphoma diagnosed between 1983 and 1993. Eighty cases had aberrations by CGH. Chromosomal regions 1p21-31.1 (10%), 6cen-q24 (12%), 8p (11%), 9p21-ter (14%), 11q21-23.1 (11%), 13q13-21.1 (12%), and 17p (15%) were frequently lost. Gains were found at 3q21-ter (22%), 6p (11%), 7p (12%), 8q23-ter (13%), 12cen-q15 (17%), 17q24-ter (13%), and 18q13.3-21 (20%). A high number of aberrations (> or = 4, 33 cases) was associated (P < or = 0.001) with the mantle cell and diffuse large B-cell lymphoma subtypes, a high fraction of tumour cells in S phase, and short survival (RR (relative risk) = 3.7). Loss of 1p21-31.1, 8p, 9p21-ter, 11q21-23.1, and 13q13-21.1 were associated with mantle cell lymphoma (P < or = 0.03), while gain of 6p and 12cen-q15 were more frequent in diffuse large B-cell and small lymphocytic lymphoma, respectively (P = 0.04). Loss of 8p and 17p, and gain of 3q21-ter, 6p, 7p, and 8q23-ter were associated with a high S phase fraction (P < or = 0.03), but none of the aberrations were associated with tumour apoptotic fraction (P > or = 0.13). The most important prognostic CGH parameters (P < 0.001) were losses of 11q21-23.1 (RR = 3.8) and 17p (RR = 4.4), and gain of 6p (RR = 4.2). The latter parameters and IPI were the only ones with independent prognostic value (RR = 10, 5.0, 6.7, and 3.7, respectively; P < 0.001) when assessed together with lymphoma sub-type, primary versus relapse cases, treatment, B symptoms, S phase fraction, and presence of BCL1 and BCL2 translocations. A combined CGH/IPI binary parameter had high prognostic value for patients receiving different treatments, with various lymphoma sub-types, and for primary as well as relapse cases.     

Specific chromosomal aberrations in de novo acute myeloid leukemia: a comparative analysis of results with a report of three novel chromosomal rearrangements t(7;14)(q35;q13), t(8;18)(p11.2;q12), t(13;15) in Indian population

Background: Acute myeloid leukemia (AML) is a heterogeneous disease with regard to morphology, immunophenotype, and genetic rearrangements. Multiple recurrent chromosomal aberrations have been identified by conventional cytogenetic analysis, which is now widely recognized as one of the most important diagnostic and prognostic determinants in AML. Method: Conventional cytogenetic analysis was done on 200 de novo AML subjects. Results: Of these, 176 (88%) were successfully karyotyped and 24 (12%) showed culture failure. Among the176 subjects, 101 (57.4%) were abnormal and 75 (42.6%) showed an apparently normal karyotype. The various aberrations observed were t(8;21)(q22;q22) (5.2%); t(15;17) (q22;q11-21) (9%); t(9;22)(q34;q11)(1.7%); t(14;17)(q32;q11.2)(0.5%); inv(16)(p13;q22)(1.7%); 11q23 rearrangements (4%); monosomy 7 (2.2%) and 22 (1.1%); deletion of 9q (q22q34) (5.1%), 5q (q13q33) (0.5%) and 13q (q13q31) (0.5%); common trisomies like +8 (5.6%), +16 (1.7%), +22 (1.1%), +21 (0.5%), +13 (0.5%), +11 (0.5%), +3 (0.5%); hyperdiploidy (3.4%); hypodiploidy (1.1%); complex karyotype (4%); and other structural abnormalities (4.5%). Apart from these, three novel chromosomal abnormalities viz. t(8;18), t(7;14), t(13;15) were observed in the current study population. Conclusion: This study confirms that the incidence of chromosomal abnormalities varies considerably. Comparatively, the incidence t(15;17), and del9q is higher, while that of −5/del5q, −7/del7q and inv (16) were lower in our population. Similarly, the frequency of other recurrent FAB associated abnormalities viz. 11qabn was comparable to previous reports. Furthermore, ongoing cytogenetic studies are warranted in larger groups of AML cases to identify newly acquired chromosomal aberrations that may aid in cloning novel genes involved in the neoplastic process, ultimately helping in the development of targeted therapeutic drugs.     

Interphase cytogenetic abnormalities in chronic lymphocytic leukemia may predict response to rituximab

Select cytogenetic abnormalities such as del(17)(p13.1) and del(11)(q22-q23)predict rapid disease progression and inferior survival in chronic lymphocytic leukemia (CLL). We sought to determine the impact of the four most common interphase cytogenetic abnormalities in 28 CLL patients relative to response to three-times-a-week rituximab therapy. Abnormalities were noted in 25 of the 28 patients to include del(13)(q14.3) [n = 16 (57%)], del(11)(q22.3) [n = 10 (36%)], +12 [n = 6 (21%)], del(17)(p13.1) [n = 5 (18%)], and normal [n = 3 (11%)]. Only a minority of each of these occurred as sole abnormalities. To categorize patients into one specific group, we used the hierarchical order del(17)(p13.1) > del(11)(q22.3) > trisomy 12 > del(13)(q14.3) to prioritize. Response to rituximab was noted to vary by cytogenetic group: del(17)(p13.1), 0% [n = 5]; del(11)(q22.3), 66% [n = 9]; del(13)(q14.3), 86% [n = 7]; +12, 25% [n = 4], and normal, 0% [n = 3]. Response was significantly lower (P = 0.05) in patients with del(17)(p13.1) as compared with those with other abnormalities. These data suggest that interphase cytogenetics in CLL may be predictive of a response to rituximab therapy and provide support for additional studies validating risk-adapted therapy in this disease.     

Specific chromosomal aberrations in de novo acute myeloid leukemia: A comparative analysis of results with a report of three novel chromosomal rearrangements t(7;14)(q35;q13), t(8;18)(p11.2;q12), t(13;15) in Indian population

Background: Acute myeloid leukemia (AML) is a heterogeneous disease with regard to morphology, immunophenotype, and genetic rearrangements. Multiple recurrent chromosomal aberrations have been identified by conventional cytogenetic analysis, which is now widely recognized as one of the most important diagnostic and prognostic determinants in AML. Method: Conventional cytogenetic analysis was done on 200 de novo AML subjects. Results: Of these, 176 (88%) were successfully karyotyped and 24 (12%) showed culture failure. Among the176 subjects, 101 (57.4%) were abnormal and 75 (42.6%) showed an apparently normal karyotype. The various aberrations observed were t(8;21)(q22;q22) (5.2%); t(15;17) (q22;q11-21) (9%); t(9;22)(q34;q11)(1.7%); t(14;17)(q32;q11.2)(0.5%); inv(16)(p13;q22)(1.7%); 11q23 rearrangements (4%); monosomy 7 (2.2%) and 22 (1.1%); deletion of 9q (q22q34) (5.1%), 5q (q13q33) (0.5%) and 13q (q13q31) (0.5%); common trisomies like +8 (5.6%), +16 (1.7%), +22 (1.1%), +21 (0.5%), +13 (0.5%), +11 (0.5%), +3 (0.5%); hyperdiploidy (3.4%); hypodiploidy (1.1%); complex karyotype (4%); and other structural abnormalities (4.5%). Apart from these, three novel chromosomal abnormalities viz. t(8;18), t(7;14), t(13;15) were observed in the current study population. Conclusion: This study confirms that the incidence of chromosomal abnormalities varies considerably. Comparatively, the incidence t(15;17), and del9q is higher, while that of −5/del5q, −7/del7q and inv (16) were lower in our population. Similarly, the frequency of other recurrent FAB associated abnormalities viz. 11qabn was comparable to previous reports. Furthermore, ongoing cytogenetic studies are warranted in larger groups of AML cases to identify newly acquired chromosomal aberrations that may aid in cloning novel genes involved in the neoplastic process, ultimately helping in the development of targeted therapeutic drugs.     

Abnormalities of chromosome bands 13q12 to 13q14 in childhood acute lymphoblastic leukemia.

PURPOSE: Little is known about nonrandom deletions of chromosome bands 13q12 to 13q14 (13q12-14) in acute lymphoblastic leukemia (ALL). We determined the prognostic significance of cytogenetically identified breakpoints in 13q12-14 in children with newly diagnosed ALL treated on Children's Cancer Group protocols from 1988 to 1995. PATIENTS AND METHODS: Breakpoints in 13q12-14 were identified in 36 (2%) of the 1,946 cases with accepted cytogenetic data. Outcome analysis used standard life-table methods. RESULTS: Seventeen patients (47%) with an abnormal 13q12-14 were classified, according to the National Cancer Institute (NCI), as poor risk, and 15 patients (42%) were standard risk; four (11%) were infants less than 12 months of age. Eight cases had balanced rearrangements of 13q12-14, 27 patients had a partial loss of 13q, and one had both a partial gain and a partial loss. The most frequent additional abnormalities among these patients were an abnormal 12p, a del(6q), a del(9p), a 14q11 breakpoint, and an 11q23 breakpoint. Nineteen patients were pseudodiploid, 10 were hyperdiploid, and seven were hypodiploid. Patients with an abnormal 13q12-14 had significantly worse event-free survival than patients lacking such an abnormality, with estimates at 6 years of 61% (SD = 14%) and 74% (SD = 1%), respectively (P =.04; relative risk = 1.74). Overall survival, however, was similar for the two groups (P =.25). The prognostic effect of an abnormal 13q was attenuated in a multivariate analysis adjusted for NCI risk status and ploidy (P =.72). CONCLUSION: Aberrations of 13q12-14 may contribute to leukemogenesis of childhood ALL and confer increased risk of treatment failure but are associated with other poor-risk features.     

Mosaic 46,XY/92,XXYY,del(5)(q13 q34) in an adult lymphoblastic leukemia

Usually the chromosome anomalies encountered in ALL are modal number abnormalities (hyperdiploidy or hypodiploidy) and structural anomalies such as t(8;14), t(11;14), t(9;22), t(1;19) and del(6p). The 5q- syndrome is mainly associated with myelodysplastic syndromes and with ANLL (M1, M2, M3). We report the case of a patient presenting with a mosaic karyotype 46,XY/92,XXYY,del(5)(q13 q34) in the following proportion 1/3 normal mitoses and 2/3 tetraploid mitoses.     

Trisomy and tetrasomy for long arm of chromosome 1 in near-diploid human endometrial adenocarcinomas

Karyotypic analysis by R-banding after short-term culture, carried out on 7 cases of human endometrial adenocarcinoma, showed in 4 of these a trisomy or a tetrasomy for the long arm of chromosome I. In the 4 cases, these imbalances were due to rearrangements involving centromeric or para-centromeric break-points: 46,XX,-16, +der(1q16p) t(1;16)(1p16q;1q16p); 46,XX,-21, +der (1q21q)t(1;21) (1p21p;1q21q); 46,XX, -21, +der(21) t(1;21)(q11;p13); 48, XX, +2, +i(1q). Two other cases showed only a numerical aberration: 47, XX, +10 and 47, XX, +12. In the last case, only cells with apparently normal karyotype were seen. In the 4 cases with an anomaly of chromosome I, two normal I chromosomes coexisted with abnormal elements. This shows that the rearrangement very likely occurred in G2 phase of the cell cycle.     

Co-existence of t(6;13)(p21;q14.1) and trisomy 12 in chronic lymphocytic leukemia

We report a case of a 57-year-old man diagnosed with chronic lymphocytic leukemia (CLL) and presence of a rare t(6;13)(p21;q14.1) in association with an extra copy of chromosome 12. Classical cytogenetic analysis using the immunostimulatory combination of DSP30 and IL-2 showed the karyotype 47,XY,t(6;13)(p21;q14.1), +12 in 75% of the metaphase cells. Spectral karyotype analysis (SKY) confirmed the abnormality previously seen by G-banding. Additionally, interphase fluorescence in situ hybridization using an LSI CEP 12 probe performed on peripheral blood cells without any stimulant agent showed trisomy of chromosome 12 in 67% of analyzed cells (134/200). To the best of our knowledge, the association of t(6;13)(p21;q14.1) and +12 in CLL has never been described. The prognostic significance of these new findings in CLL remains to be elucidated. However, the patient has been followed up since 2009 without any therapeutic intervention and has so far remained stable.     

Chromosome abnormalities and MLL rearrangements in acute myeloid leukemia of infants.

Of 29 infants with acute myeloid leukemia (AML), 14 (48%) had various 11q23 translocations. MLL rearrangements were examined in 21 of the 29 patients, and 11 (52%) showed the rearrangements. 11q23 translocations and/or MLL rearrangements were found in 17 (58%) of the 29 patients. While all but one of the 17 patients with 11q23/MLL rearrangements had M4 or M5 type of the FAB classification, the 12 patients without such rearrangements had various FAB types, including M2, M4, M4EO, M6 and M7. Of the 12 patients with other chromosome abnormalities or normal karyotypes, two had inv(16) ort(16;16), one had t(1;22)(p13;q13), and two had a novel translocation, t(7;12)(q32;p13). The breakpoint on 12p of the t(7;12) was assigned to intron 1 or the region just upstream of exon 1 of the TEL/ETV6 gene by fluorescence in situ hybridization. The event-free survival at 5 years for the 17 patients with 11q23/MLL rearrangements was 42.2%, and that for the 12 patients without such rearrangements was 31.3% (P = 0.5544). 11q231MLL rearrangements have been frequently reported and a poor prognosis in infant acute lymphoblastic leukemia implied. Our study showed that while 11q23/MLL rearrangements were also common in infant AML, AML infants with such rearrangements had a clinical outcome similar to that of AML infants without such rearrangements.