A new multiple myeloma cell line, MEF-1, possesses cyclin D1 overexpression and the p53 mutation

BACKGROUND: The t(11;14)(q13;q32) translocation with cyclin D1 overexpression commonly is found in multiple myeloma (MM) and in mantle cell lymphoma (MCL). Several reports have shown that p53 mutations in MCL lead to blastoid transformation and a worse prognosis; however, the role of p53 mutations in MM with t(11;14) is unclear. METHODS: In this study the authors describe a patient with MM with t(11;14) and a p53 mutation at presentation and characterized a cell line, MEF-1, established from this patient. Immunohistochemical analysis of p53 and cyclin D1 proteins was performed. The p53 gene was analyzed by polymerase chain reaction-single strand conformation polymorphism and direct sequencing. The expression of cyclin D1 mRNA was examined by Northern blot analysis. RESULTS: MEF-1 had t(11;14) with overexpression of cyclin D1 mRNA and produced immunoglobulin kappa-light chain. MEF-1 had a mutation in exon 7 (codon 255-257) of the p53 gene, which was noted in the patient's myeloma cells. CONCLUSIONS: p53 mutations may be important genetic events in disease progression of MM with t(11;14). The MEF-1 cell line may be a useful tool to study mechanisms of progression in MM based on abnormalities of the cyclin D1 gene.     

Gain(1)(q21) is an Unfavorable Genetic Prognostic Factor for Patients With Relapsed Multiple Myeloma Treated With Thalidomide but Not for Those Treated With Bortezomib

BackgroundPrognostic impact of specific chromosomal aberrations in patients with relapsed multiple myeloma (MM) treated with the novel agents is briefly described.Patients and MethodsWe analyzed the prognostic value of an extended panel of chromosomal aberrations [del(13)(q14), del(17)(p13), t(4;14)(p16;q32), gain(1)(q21), and hyperdiploidy] by using the technique of interphase fluorescence in situ hybridization in a cohort of 102 patients with relapsed MM treated with thalidomide- or bortezomib-based protocols.ResultsThe gain(1)(q21) had a negative impact on overall survival for patients with MM treated with thalidomide (15.7 vs. 41.3 months; P = .004). Moreover, we confirmed the negative impact of the cumulative effect of 2 or more cytogenetic changes that occur simultaneously on the overall survival in the thalidomide group (20.3 months vs. not yet reached; P = .039). We did not find any significant impact of the aberrations studied on overall survival in the bortezomib cohort of patients.ConclusionWe conclude that bortezomib-based protocols are able to partially overcome the negative prognostic impact of the tested chromosomal abnormalities in patients with relapsed MM.     

Fluorescence in situ hybridization analysis of chromosome aberrations in 60 Chinese patients with multiple myeloma

Conventional cytogenetic analysis is often hampered owing to the low mitotic index of multiple myeloma (MM) cells in bone marrow samples of MM. Interphase fluorescence in situ hybridization (I-FISH) analysis combined with magnetic-activated cell sorting (MACS) has substantially enhanced the sensitivity of cytogenetic analysis. Here, we used I-FISH to explore the incidence of chromosomal abnormalities in 60 Chinese patients with newly diagnosed MM. Five different specific probes for the regions containing 13q14.3 (D13S319), 14q32 (IGHC/IGHV), 1q21, 1p12, and 17p13 were used to detect chromosomal aberrations, and LSI IGH/CCND1, LSI IGH/FGFR3, and LSI IGH/MAF probes were further applied to detect t(11;14)(q13;q32), t(4;14)(p16;q32), and t(14;16)(q32;q23) in patients with 14q32 rearrangement. Fifty of the patients (83.3%) had at least one type of abnormalities regarding the regions analyzed. Nine patients (15%) had one abnormality; 10 patients (16.7%) had two abnormalities; 31 patients (51.7%) had three or more abnormalities. The most frequent abnormality in the patients was illegitimate IgH rearrangement (70%), followed by 13q14 deletion (63.3%), 1q21 amplification (61.7%), 1p12 deletion (33.3%), and 17p13 deletion (13.3%). These aberrations are not randomly distributed, but strongly interconnected. Patients with 17p13 deletion or t(4;14)(p16;q32) had significant higher ??2-microglobulin level (P?<?0.05). However, all these abnormalities had no correlation with age, gender, disease stage, and Ig isotype; yet, it was showed that the frequencies of the individual chromosomal abnormalities were very high. Taken together, MACS in combination with I-FISH may be a promising tool to detect the molecular cytogenetic abnormalities of MM.     

Cyclin D1 overexpression is not a specific grouping marker, but may collaborate with CDC37 in myeloma cells

Cyclin D1 is a positive-regulator of the cell cycle and is overexpressed in myeloma cells with t(11;14)(q13;q32). First, we analyzed whether there was a correlation between cyclin D1 overexpression and the presence of Ki67-positive myeloma cells in multiple myeloma (MM). Cyclin D1 overexpression was examined by competitive RT-PCR. Then we found these two markers were present independently in a given case. FISH analysis revealed that cyclin D1 over-expression was caused by t(11;14)(q13;q32) or extra copies of B-cell leukemia/lymphoma-1 (BCL-1/CCND1), and unknown mechanism without them. We compared the gene expression between myeloma cells with cyclin D1 overexpression and those without it using cDNA microarray analysis. Analysis of the expression profiles showed that the significantly up-regulated genes included cyclin D1, cell division cycle 37 (CDC37) and B-cell leukemia/lymphoma-2 (BCL-2), while the down-regulated genes included cyclin D2 and CD9 antigen (p24) in MM cases with cyclin D1 overexpression. However, hierarchical clustering analysis of the data showed that myeloma cells of MM cases with cyclin D1 overexpression could not be distinguished clearly from those without it. Real-time RT-PCR showed that the expression of CDC37 gene was significantly up-regulated in MM patients with cyclin D1 overexpression compared with those without it (p=0.0418). However, there was no significant difference in BCL-2 gene (p=0.5748). These results suggested that MM cases with cyclin D1 overexpression do not constitute a specific group, and cyclin D1 overexpression may not be caused only by abnormality of the BCL-1/CCND1 gene. The CDC37 may collaborate with cyclin D1 in progression of MM.     

Mismatch repair, p53 and chromosomal aberrations in primary colorectal carcinomas

Colorectal carcinoma progresses via at least two genetic pathways. Microsatellite instability, due to defective mismatch repair genes, characterizes one pathway and gross chromosomal instability another. The involvement of p53 and mismatch repair gene abnormalities within these pathways has not been fully explored. We aimed to investigate the relationships of p53 and mismatch repair gene defects on gross chromosomal aberrations detected by comparative genomic hybridization in 49 colorectal carcinomas. Tumours demonstrating loss of expression for hMLH1 or hMSH2 proteins demonstrated a highly significant attenuation in the number of gross chromosomal aberrations (p = 0.007) and were less likely to show p53 overexpression (p = 0.02). Within the mismatch repair normal tumours, p53 status did not affect the total number of chromosomal aberrations but p53 overexpression was significantly associated with a higher frequency of amplifications at 8q22-ter and at 13q21-22. Colorectal cancer demonstrates distinct molecular phenotypes and should be sub-classified accordingly.     

Cytogenetic, molecular genetic, and clinical characteristics of acute myeloid leukemia with a complex karyotype

Patients with acute myeloid leukemia (AML) harboring three or more acquired chromosome aberrations in the absence of the prognostically favorable t(8;21)(q22;q22), inv(16)(p13q22)/t(6;16)(p13;q22), and t(15;17)(q22;q21) aberrations form a separate category - AML with a complex karyotype. They constitute 10% to 12% of all AML patents, with the incidence of complex karyotypes increasing with the more advanced age. Recent studies using molecular-cytogenetic techniques (spectral karyotyping [SKY], multiplex fluorescence in situ hybridization [M-FISH]) and array comparative genomic hybridization (a-CGH) considerably improved characterization of previously unidentified, partially identified, or cryptic chromosome aberrations, and allowed precise delineation of genomic imbalances. The emerging nonrandom pattern of abnormalities includes relative paucity, but not absence, of balanced rearrangements (translocations, insertions, or inversions), predominance of aberrations leading to loss of chromosome material (monosomies, deletions, and unbalanced translocations) that involve, in decreasing order, chromosome arms 5q, 17p, 7q, 18q, 16q, 17q, 12p, 20q, 18p, and 3p, and the presence of recurrent, albeit less frequent and often hidden (in marker chromosomes and unbalanced translocations) aberrations leading to overrepresentation of segments from 8q, 11q, 21q, 22q, 1p, 9p, and 13q. Several candidate genes have been identified as targets of genomic losses, for example, TP53, CTNNA1, NF1, ETV6, and TCF4, and amplifications, for example, ERG, ETS2, APP, ETS1, FLI1, MLL, DDX6, GAB2, MYC, TRIB1, and CDX2. Treatment outcomes of complex karyotype patients receiving chemotherapy are very poor. They can be improved to some extent by allogeneic stem cell transplantation in younger patients. It is hoped that better understanding of genomic alterations will result in identification of novel therapeutic targets and improved prognosis in patients with complex karyotypes.     

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.     

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.     

Cytogenetic profile of 109 lipomas

Cytogenetic analysis of short-term cultures was carried out on 109 lipomas from 92 patients. Clonal chromosomal abnormalities were present in 50% of the tumors analyzed. Based on the results, three main cytogenetic groups were identified and included: (a) tumors with normal karyotypes, (b) tumors with abnormalities involving region q13-15 on chromosome 12, and (c) tumors with other clonal aberrations. Within each of these groups, cytogenetic subgroups could be identified, each characterized by a specific anomaly. Tumors with abnormalities of 12q included specific subgroups with t/ins(1;12)(p32-33;q13-15), t(2;12)(p21-22;q13-14), t(3;12)(q28;q14), t(12;21)(q13;q21), complex, and nonrecurrent aberrations. The group containing heterogeneous clonal aberrations included subgroups with del(13)(q12q22), der(6)(p21-23), der(11)(q13), and nonspecific aberrations. Chromosome bands 1p36, 1p32-33, 2p21-22, 3q27-28, 6p21-23, 11q13, 12q13-15, 13q12, 13q22, 17p13, 17q21, and 21q21-22 were preferentially involved in structural rearrangements in lipomas. The identification of these sites of nonrandom rearrangements may serve to identify genes (at or near the junctions of chromosomal aberrations) involved in normal cellular growth control. Statistical analysis of the data revealed a correlation among karyotypic abnormalities and clinical data, such as age and sex of the patient, and tumor depth, site, and size.     

Targeting SIRT1 to inhibit the proliferation of multiple myeloma cells

Multiple myeloma (MM) is the second most common hematopoietic malignancy and remains an incurable disease. Thus, novel drugs and therapeutic methods are required for patients with MM. The present study aimed to investigate the effect of sirtuin 1 (SIRT1) inhibitor cambinol on the proliferation and apoptosis of myeloma cell lines, RPMI8226 and U266. Moreover, the present study evaluated the underlying molecular mechanisms of proliferation inhibition and apoptosis induced by cambinol. A Cell Counting Kit-8 assay was used to measure the viability of RPMI8226 and U266 cells treated with cambinol. Apoptosis and the cell cycle were analyzed via flow cytometry. The expression levels of caspase-3, poly(ADP-ribose) polymerase 1 (PARP), p53, acetylated p53 (Ac-p53), Bcl-2, cyclin D1 and p21 were detected in cells treated with cambinol using western blot analysis. The results demonstrated that cambinol inhibited the proliferation of RPMI8226 and U266 cells in a time- and dose-dependent manner. Increased apoptosis and G₁ cell cycle arrest, together with enhanced procaspase-3 degradation and PARP cleavage were identified in cambinol-treated cells compared with controls. Western blotting results also revealed the upregulation of p53 acetylation and p21, as well as the downregulation of Bcl-2 and cyclin D1 in cells treated with cambinol. In conclusion, the present results suggest that cambinol inhibits the proliferation and induces apoptosis in RPMI8226 and U266 cells by regulating acetylation of p53 via the targeting of SIRT1.     

Karyotype complexity and prognosis in acute myeloid leukemia

A complex aberrant karyotype consisting of multiple unrelated cytogenetic abnormalities is associated with poor prognosis in patients with acute myeloid leukemia (AML). The European Leukemia Net classification and the UK Medical Research Council recommendation provide prognostic categories that differ in the definition of unbalanced aberrations as well as the number of single aberrations. The aim of this study on 3526 AML patients was to redefine and validate a cutoff for karyotype complexity in AML with regard to adverse prognosis. Our study demonstrated that (1) patients with a pure hyperdiploid karyotype have an adverse risk irrespective of the number of chromosomal gains, (2) patients with translocation t(9;11)(p21∼22;q23) have an intermediate risk independent of the number of additional aberrations, (3) patients with ⩾4 abnormalities have an adverse risk per se and (4) patients with three aberrations in the absence of abnormalities of strong influence (hyperdiploid karyotype, t(9;11)(p21∼22;q23), CBF-AML, unique adverse-risk aberrations) have borderline intermediate/adverse risk with a reduced overall survival compared with patients with a normal karyotype.     

Chromosomal aberrations of multiple myeloma in Chinese patients at diagnosis: a study by combined G-banding and multicolor spectral karyotyping

Cytogenetic investigation of multiple myeloma (MM) has been difficult by conventional methods and most of the data have been derived from western population where incidence of MM is much higher as compared to that of Asians. The current study represents the first report of chromosomal aberrations of multiple myeloma in Chinese. We investigated 25 consecutive Chinese patients with MM for chromosomal aberrations at diagnosis using G-banding and multicolor spectral karyotyping (SKY). Of the 21 patients successfully analyzed by G-banding, 11 patients revealed cytogenetic abnormalities showing complex numerical and structural aberrations, which were further characterized with SKY. An abnormal karyotype significantly associated with blastic MM was observed. Consistent with the western literature, structural rearrangements involving chromosomes 1, 6, 8, 19, numerical abnormalities of gains in chromosomes 9, 3, and 5, and losses in chromosomes 13 and 14 were observed. However, there were notably higher incidences of -22/22q- (4/11) and structural aberrations of chromosome X but a lower incidence of -X. The biological implications of these findings, if confirmed, deserve further evaluation.     

Predictive role of interphase cytogenetics for survival of patients with multiple myeloma.

PURPOSE: Recent metaphase cytogenetic studies suggested that specific chromosomal abnormalities are of prognostic significance in patients with multiple myeloma (MM). Because the true incidence of chromosomal abnormalities in MM is much higher than that detected by metaphase analysis, we used interphase fluorescence in situ hybridization (FISH) to determine the prognostic value of specific chromosomal aberrations. PATIENTS AND METHODS: Bone marrow plasma cells from 89 previously untreated patients with MM were studied consecutively by FISH to detect the deletions of 13q14, 17p13, and 11q and the presence of t(11;14)(q13;q32). FISH results were analyzed in the context of clinical parameters (response to treatment and survival after conventional-dose chemotherapy), and a multivariate analysis of prognostic factors was performed. RESULTS: By FISH, the deletion of 13q14 occurred in 40 patients (44.9%), deletion of 17p13 in 22 (24.7%), and 11q abnormalities in 14 (15.7%; seven with t(11;14)). Deletions of 13q14 and 17p13 were associated with poor response to induction treatment (46.9% v 77.3% in those without deletions, P =.006 and 40.0% v 73.2%, P =.008, respectively) and short median overall survival (OS) time (24.2 v 88.1 months, P =. 008 and 16.2 v 51.3 months, P =.008, respectively). Short median OS time was also observed for patients with 11q abnormalities (13.1 v 41.6 months, P =.02). According to the number of unfavorable cytogenetic features (deletion of 13q14, deletion of 17p13, and aberrations of 11q) that were present in each patient (0 v 1 v 2 or 3), patients with significantly different OS times could be discriminated from one another (102.4 v 29.6 v 13.9 months, P <.001, respectively). CONCLUSION: For patients with MM who were treated with conventional-dose chemotherapy, interphase FISH for 13q14, 17p13, and 11q provides prognostically relevant information in addition to that provided by standard prognostic factors. This observation may be considered for risk-adapted stratifications of MM patients in future clinical trials.     

Recurrent chromosome changes at 3p21 in Epstein-Barr virus-transformed cells derived from human prolymphocytic leukemia

Cytogenetic studies of Epstein-Barr virus-transformed lymphoblastoid cells obtained from a patient with prolymphocytic leukemia revealed the cells to contain recurrent chromosome aberrations involving band 3p21. The in vivo leukemic cells from which the cell lines originated contained a der(3)t(3;17?)(p21;q11?) and a der(13)t(13;3)(q34;p21), as well as numerical (-Y, -8, and -17) and other structural [8p- and der(8)t(8;?)(q13?;?)] changes. The cells in established culture showed additional chromosome aberrations involving band 3p21 of the previously normal and abnormal chromosomes 3. After 200 days of culture, the cells contained a new translocation, i.e., t(3;14)(p21;q32). The cells showed further chromosomal breakage and reunion at band 3p21 at later passages. The affected chromosomal band (3p21) is close to one of the constitutive fragile sites, i.e., 3p14.2. Northern blot analysis of the messenger RNA of the cultured cells did not show an increased or altered expression of the c-raf-1 protooncogene (located at 3p25) when compared with the mRNA of Epstein-Barr virus-transformed lymphoblastoid cell lines from normal subjects with a normal karyotype. Also, the established cells did not show DNA rearrangements or RNA alterations of the c-myc gene.     

Chromosomal gains and losses in primary colorectal carcinomas detected by CGH and their associations with tumour DNA ploidy, genotypes and phenotypes.

Comparative genomic hybridization (CGH) is used to detect amplified and/or deleted chromosomal regions in tumours by mapping their locations on normal metaphase chromosomes. Forty-five sporadic colorectal carcinomas were screened for chromosomal aberrations using direct CGH. The median number of chromosomal aberrations per tumour was 7.0 (range 0-19). Gains of 20q (67%) and losses of 18q (49%) were the most frequent aberrations. Other recurrent gains of 5p, 6p, 7, 8q, 13q, 17q, 19, X and losses of 1p, 3p, 4, 5q. 6q, 8p, 9p, 10, 15q, 17p were found in > 10% of colorectal tumours. High-level gains (ratio > 1.5) were seen only on 8q, 13q, 20 and X, and only in DNA aneuploid tumours. DNA aneuploid tumours had significantly more chromosomal aberrations (median number per tumour of 9.0) compared to diploid tumours (median of 1.0) (P < 0.0001). The median numbers of aberrations seen in DNA hyperdiploid and highly aneuploid tumours were not significantly different (8.5 and 11.0 respectively; P = 0.58). Four tumours had no detectable chromosomal aberrations and these were DNA diploid. A higher percentage of tumours from male patients showed Xq gain and 18q loss compared to tumours from female patients (P = 0.05 and 0.01 respectively). High tumour S phase fractions were associated with gain of 20q13 (P = 0.03), and low tumour apoptotic indices were associated with loss of 4q (P = 0.05). Tumours with TP53 mutations had more aberrations (median of 9.0 per tumour) compared to those without (median of 2.0) (P = 0.002), and gain of 8q23-24 and loss of 18qcen-21 were significantly associated with TP53 mutations (P = 0.04 and 0.02 respectively). Dukes' C/D stage tumours tended to have a higher number of aberrations per tumour (median of 10.0) compared to Dukes' B tumours (median of 3.0) (P = 0.06). The low number of aberrations observed in DNA diploid tumours compared to aneuploid tumours suggests that genomic instability and possible growth advantages in diploid tumours do not result from acquisition of gross chromosomal aberrations but rather from selection for other types of mutations. Our study is consistent with the idea that these two groups of tumours evolve along separate genetic pathways and that gross genomic instability is associated with TP53 gene aberrations.     

Seven novel and stable translocations associated with oncogenic gene expression in malignant melanoma

Cytogenetics has not only precipitated the discovery of several oncogenes, but has also led to the molecular classification of numerous malignancies. The correct identification of aberrations in many tumors has, however, been hindered by extensive tumor complexity and the limitations of molecular cytogenetic techniques. In this study, we have investigated five malignant melanoma (MM) cell lines from at least three different passages using high-resolution R-banding and the recently developed methods of comparative genomic hybridization and multicolor or multiplex fluorescence in situ hybridization. We subsequently detected nine consistent translocations, seven of which were novel: dic(1;11)(p10;q14), der(9)t(3;9)(p12;p11), der(4)t(9;4;7)(q33:p15-q23:q21), der(14)t(5;14)(q12;q32), der(9)t(9;22)(p21;q11), der(19)t(19;20)(p13.3;p11), der(10)t(2;12;7;10)(q31:p12-->pter:q11.2-->q31:q21), der(19)t(10;19)(q23;q13), and der(20)t(Y;20)(q11.23;q13.3). Furthermore, using the human HG-U133A GeneChip, positive expression levels of oncogenes or tumor-related genes located at the regions of chromosomal breakpoints were identified, including AKT1, BMI1, CDK6, CTNNB1, E2F1, GPNMB, GPRK7, KBRAS2, LDB2, LIMK1, MAPK1, MEL, MP1, MUC18, NRCAM, PBX3, RAB22A, RAB38, SNK, and STK4, indicating an association between chromosomal breakpoints and altered gene expression. Moreover, we also show that growth of all five cell lines can be significantly reduced by downregulating CDK6 gene expression with small interfering RNA (siRNA). Because the majority of these breakpoints have been reported previously in MM, our results support the idea of common mechanisms in this disease.