Establishment of a human malignant fibrous histiocytoma cell line, COMA. Characterization By conventional cytogenetics, comparative genomic hybridization, and multiplex fluorescence In situ hybridization

The human COMA cell line has been established from a storiform pleomorphic malignant fibrous histiocytoma (MFH). As expected for this tumor type, a very complex karyotype was observed after R-banding analysis. An extensive analysis by 24-color painting, comparative genomic hybridization (CGH), and fluorescence in situ hybridization (FISH) was performed. Twelve complex marker chromosomes recurrently observed were clearly identified; among them, three were systematically present in all analyzed metaphases. Amplifications detected by CGH were refined by FISH with probes specific for various candidate loci. A significant aneuploidy and numerous micronuclei were observed, which could be related to the anomalies of centriole numbers detected in a proportion of cells. Such an analysis, performed on a series of MFH cell lines, would allow the delineation of the genomic alterations specific for the oncogenesis or progression of this complex tumor type or both.     

Establishment and molecular cytogenetic characterization of non-small cell lung cancer cell line KU-T1 by multicolor fluorescence in situ hybridization, comparative genomic hybridization, and chromosome microdissection

A human lung adenocarcinoma cell line, designated KU-T1, was established from a Japanese man in Kochi Medical School. Conventional banding and multicolor fluorescence in situ hybridization (M-FISH) analyses of KU-T1 cells revealed a hyperdiploid chromosomal constitution and complex karyotypes. Comparative genomic hybridization showed several chromosomal copy number changes, and five regions that were highly amplified. Two of the five highly amplified regions, 1q and 3q, were identified from distributions of DNA sequences on a metaphase cell by FISH using chromosome microdissection-generated probes hybridized to 1q32 approximately q34 and 3q26 approximately q28, respectively. The 3q probe depicted a homogeneously staining region (hsr) in a derivative chromosome 3 of KU-T1. An hsr probe was regenerated by chromosome microdissection and was hybridized back to KU-T1 and normal metaphases. This hybridization experiment confirmed the probe derived from an hsr and indicated original locations of DNA sequences of hsr on normal chromosome 3. Intense hybridized signals shown at three loci (3p12, 3q26.3, and 3q28) suggests that oncogenes may be involved in the hsr formation. The present study provides a comprehensive analysis of the chromosomal abnormalities, including hsr formation and related oncogenes, in the KU-T1 cell line.     

Establishment and characterization of cell line TNMY1 derived from human malignant fibrous histiocytoma

Although malignant fibrous histiocytoma (MFH) is one of the most common soft tissue sarcomas, its pathogenesis remains unclear. In this study, a cell line derived from human MFH, TNMY1, was established from a metastatic chest-wall lesion of a 60-year-old woman with MFH. The TNMY1 cell line was passaged 95 times, and it still retained the biological characteristics of the original tumor. TNMY1 consists of spindle-shaped cells and pleomorphic cells associated with multinucleated giant cells. Immunohistochemical studies showed that the spindle-shaped and pleomorphic cells were positive for vimentin, CD68 and alpha-smooth muscle actin, but negative for epithelial membrane antigen, desmin, muscle actin, alpha-sarcomeric actin, myoglobin, lysozyme and S-100 protein. The cells expressed collagen types I, III and V. These results indicate that MFH may originate from mesenchymal stem cells with the potential to differentiate into either fibroblasts or histiocytes. An elevated level of collagen type V mRNA expression is considered to support a diagnosis of MFH.     

Cytogenetic characterization of chromosomal rearrangement in a human vinblastine-resistant CEM cell line: use of comparative genomic hybridization and fluorescence in situ hybridization.

In order to identify genomic changes associated with drug-resistance acquisition, we performed R-banding karyotyping, fluorescence in situ hybridization, and comparative genomic hybridization to compare a human T-cell lymphoblastic leukemia cell line, CEM-wild type, and a subline with resistance to vinblastine (CEM-VLB) and overexpressing P-glycoprotein. Comparative genomic hybridization analysis showed that the CEM-VLB cell line carried chemoresistance-associated chromosomal abnormalities (amplification of 7q11 approximately q22, losses of chromosomes 2, 3, 5, 9, 10, and 16, and deletion of 4q13 approximately qter). Fluorescence in situ hybridization identified an amplified 7q21 region translocated on the short arm of a chromosome 2. This region contained the MDR1 gene locus and probably neighboring genes, such as SRI or MDR3/ABCB4. According to previous reports, this chromosomal rearrangement occurred during drug selection and attested a resistance acquisition.     

Molecular cytogenetic analysis of oral squamous cell carcinomas by comparative genomic hybridization, spectral karyotyping, and fluorescence in situ hybridization

We investigated relationships between DNA copy number aberrations and chromosomal structural rearrangements in 11 different cell lines derived from oral squamous cell carcinoma (OSCC) by comparative genomic hybridization (CGH), spectral karyotyping (SKY), and fluorescence in situ hybridization (FISH). CGH frequently showed recurrent chromosomal gains of 5p, 20q12, 8q23 approximately qter, 20p11 approximately p12, 7p15, 11p13 approximately p14, and 14q21, as well as losses of 4q, 18q, 4p11 approximately p15, 19p13, 8p21 approximately pter, and 16p11 approximately p12. SKY identified the following recurrent chromosomal abnormalities: i(5)(p10), i(5)(q10), i(8)(q10), der(X;1)(q10;p10), der(3;5)(p10;p10), and der(3;18)(q10;p10). In addition, breakpoints detected by SKY were clustered in 11q13 and around centromeric regions, including 5p10/q10, 3p10/q10, 8p10/q10 14q10, 1p10/1q10, and 16p10/16q10. Cell lines with i(5)(p10) and i(8)(q10) showed gains of the entire chromosome arms of 5p and 8q by CGH. Moreover, breakages near the centromeres of chromosomes 5 and 8 may be associated with 5p gain, 8q gain, and 8p loss in OSCC. FISH with a DNA probe from a BAC clone mapping to 5p15 showed a significant correlation between the average numbers of i(5)(p10) and 5p15 (R(2) = 0.8693, P< 0.01) in these cell lines, indicating that DNA copy number of 5p depends upon isochromosome formation in OSCC.     

Complete cytogenetic characterization of the human breast cancer cell line MA11 combining G-banding, comparative genomic hybridization, multicolor fluorescence in situ hybridization, RxFISH, and chromosome-specific painting.

The MA11 cell line was established from malignant cells isolated from the bone marrow of a breast cancer patient. It metastasizes selectively to the brain in athymic mice. Since the genomic rearrangements of only a few breast cancer cell lines have been characterized completely, we analyzed MA11 cytogenetically. Because the G-banding analysis revealed a very complex karyotype with several markers and chromosomes with additional material of unknown origin, we used multicolor fluorescence in situ hybridization (M-FISH), cross-species color banding (RxFISH), comparative genomic hybridization (CGH), and chromosome-specific probes to better characterize the chromosome abnormalities. The use of these FISH-based screening techniques allowed us to detect previously unsuspected chromosomal changes and determine the identity of chromosomal markers. Multicolor FISH was especially useful to identify the rearranged chromosomes, whereas RxFISH, G-banding, and CGH were instrumental in determining breakpoint positions, although some uncertainties were removed only after hybridization with chromosome-specific probes. The combined analysis revealed a near-triploid karyotype with no less than 20 chromosomes demonstrating structural rearrangements. The resulting imbalances included several of those known to be common in primary breast carcinomas (gain of 1q, 8q, and 20q and loss of 8p, 11q, and 13q), indicating that the MA11 cell line may serve as a good model to study breast carcinogenesis. The full cytogenetic characterization we present may guide future searches for the mechanism of organ-selective metastasis in this model system and, possibly, also in vivo.     

Molecular cytogenetic characteristics of the human hepatocellular carcinoma cell line HCCLM3 with high metastatic potential: comparative genomic hybridization and multiplex fluorescence in situ hybridization

The HCCLM3 cell line was established at the authors' institute from the lung metastatic lesions of BALB/c nude mice bearing human hepatocellular carcinoma (HCC) from the metastatic HCC cell line MHCC97-H. It has been shown to have a high potential for lung metastases and extensive metastases when the cells are inoculated subcutaneously or orthotopically in athymic nude mice. In the present study, the molecular cytogenetic characteristics of this cell line were evaluated with conventional G-banding, comparative genomic hybridization, and multiplex fluorescence in situ hybridization. A hyperdiploid karyotype of 53-58 chromosomes with 10 marker chromosomes was identified. The chromosomal aberrations such as i(X)(q10), der(Y)t(Y;18)(q12;p11), der(3)t(3;20) (p25;q13), der(4)t(4;8)(q31;q22)5, der(9)t(9;13)(p21;q22), der(14)t(14;22)(p13;q13), and der(15) t(15;21)(q11;q22) were described for the first time in human HCC cells. The analysis of this cell line through a combination of molecular cytogenetic techniques provides information on the possible molecular mechanisms involved in the metastatic process of HCC.     

Characterization of the human myeloid leukemia-derived cell line GF-D8 by multiplex fluorescence in situ hybridization, subtelomeric probes, and comparative genomic hybridization.

The human myeloid leukemia cell line GF-D8 was established from the peripheral blood blasts of a patient with acute myeloid leukemia FAB subtype MI (AML-MI). The karyotype, which has not changed significantly over several years of culture, was described initially as 44,XY,-5,del(7q),inv(7q),add(8q),add(11q),del(12p),-15,-17,+mar. With the advent of multicolor fluorescence in situ hybridization (FISH) techniques, the prospect of accurately characterizing this complex karyotype became feasible. In the present study, we applied 24-color whole-chromosome painting and analyzed the results using a filter-based detection system and proprietary software for multiplex FISH (M-FISH). This resulted in the refinement of the karyotype and the identification of hitherto unsuspected chromosome rearrangements. M-FISH identified the origin of the add(8q) and add(11q) as well as the small marker chromosome. Both the del(7q) and del(12p) were redefined as unbalanced translocations and an apparently normal chromosome 11 was shown to be t(11;17). Importantly, the del(12p) was shown to be a der(12)t(7;12). Single-color whole-chromosome painting studies confirmed these findings, but also identified a cryptic t(Y;12) not seen in the original M-FISH analysis. We then carried out a FISH screening assay using a complete set of chromosome-specific subtelomeric probes. This allowed the identification of p and q subtelomeric regions involved in the translocations and indicated amplification of the 8q subtelomeric region. Comparative genomic hybridization (CGH) revealed a highly unbalanced karyotype, as deletions accompanied the majority of translocations, and identified the regions of amplification as 8q22.3-qter and 11q21-qter. Finally, conventional FISH with centromeric and unique sequence probes was necessary to elucidate all of the rearrangements.     

Analysis of ameloblastomas by comparative genomic hybridization and fluorescence in situ hybridization

In order to characterize the chromosomal alterations in ameloblastomas, a combination of comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH) techniques was performed on 9 tumors. Chromosomal alterations including a gain at 1q and losses at 1pter, 10q, and 22q could be detected by CGH only in 1 tumor. Interphase FISH analysis, using centromeric probes for chromosomes 1, 10, and 22 as well as region-specific probes for 1p36 and 10q26, revealed the most frequent alterations to exist in the tumor with the abnormal CGH profile. These alterations included marked to slight increases of monosomic cells for chromosome 10 (91.5%), 10q26 (35.8%), 1p36 (24.4%), and chromosome 22 (18.8%), as well as significant elevations of trisomic cells for chromosome 1 (41.2%). Moreover, FISH analysis revealed a frequent loss of chromosome 22 in all tumors examined, except for one lesion, indicating that loss of the entire or a part of this chromosome is a common event in ameloblastomas, possibly being a predisposing factor to ameloblastoma tumorigenesis.     

人食管鳞癌细胞系EC9706的建立及其比较基因组杂交分析

目的 以中国男性食管鳞癌为来源，建立一个可良好传代的细胞系，从而提价七个有用的体外模式用于食管癌的研究。方法 采用组织块培养法，以新鲜的食管癌组织细胞系EC9706，做了初步的生物学特性观察，并采用比较基因组杂交的方法进行细胞遗传学的检测。结果 食管癌细胞系EC9706生长曲线显示其生长良好，易于培养。传代时间为26h，平皿集落形成率为91．9％，且能够在软琼脂中形成集落。经异种接种到裸鼠中均形成移植性肿瘤，肿瘤的病理诊断为中－低分化鳞状细胞癌。比较基因组杂交结果得出染色体1p1,q2-4,2p1,5p,7p14,7q21,11q1,11q2,20q扩增，其中5p表现出高水平的扩增。而染色体2p2,2q2,3p,4,9p,14,18,Xq缺失。结论 建立的细胞系EC9706可用于研究食管癌的癌变过程。     

Molecular cytogenetic analysis of a nontumorigenic human breast epithelial cell line that eventually turns tumorigenic: Validation of an analytical approach combining karyotyping,comparative genomic hybridization,chromosome painting,and single-locus fluorescence in situ hybridization

The immortalized, nontumorigenic human breast epithelial cell line HMT-3522 has been used as a model for premalignant and, eventually, malignant development. During cultivation, the karyotype evolution was followed. At an early stage, a very long constant phase showed a near-diploid karyotype, with only five marker chromosomes. DNA from this phase was used for comparative genomic hybridization (CGH) analysis, confirming a previously known MYC amplification, and the integration sites were subsequently determined by single-locus fluorescence in situ hybridization (FISH). Furthermore, gains of 5q22-qter and 20q11-qter and deletion of most of chromosome 6 (6p23-qter) were detected by CGH. Because of uncertainty about some of the indicated changes, including a deletion of 1p35-pter, the CGH findings were investigated more closely by chromosome painting, leading to a revision of the karyotype: 45,XX,del(1)(p35),−6,dup(8)(pter→qter::qter→q24),der(12) t(6;12)(p23;p13),der(14)t(5;14)(q22;q32.3),der(17)t(8;17;20)(17pter→17q25::8qter→8q23::8q24→8qter::8q24→8qter::8q23→8q24.1::20q11→20qter). Some karyotypic changes were confirmed by CGH; others had to be revised; and, in the 1p35 region, classical cytogenetics seems superior to CGH. However, CGH revealed a karyotypically unsuspected dup(20q) that might be of special relevance to breast tumor initiation or progression. Our study confirms that CGH is supplementary to current technologies, e.g., karyotyping and Southern analysis, but cannot replace them. In addition, our cell line turned out to be an excellent model for comparison among the different methods. The results imply that future cytogenetic analyses of complex karyotypes should be based on a combination of karyotyping, CGH, and FISH. Genes Chromosom. Cancer 20:30–37, 1997. © 1997 Wiley-Liss, Inc.     

Characterization of large chromosome markers in a malignant fibrous histiocytoma by spectral karyotyping, comparative genomic hybridization (CGH), and array CGH

In this study, we characterized the chromosomal composition of an intra-abdominal soft tissue sarcoma diagnosed as a malignant fibrous histiocytoma (MFH). By applying a combination of spectral karyotyping, G-banding, and comparative genomic hybridization (CGH), this case was shown to carry large chromosome markers with material mainly from chromosomes 6 and 8. Further characterization of this unique tumor revealed high-level amplifications at the 6q21 approximately q23, 8p21 approximately pter, 8q24 approximately qter, and 12q13 approximately q21 regions. Using array CGH, these amplified regions were found to include MASL1 in 8p, as well s MDM2 and CDK4 in 12q, which have been shown to be amplified in MFH. Similarly, gains of 6q and 8q have also been seen in MFH. In conclusion, our study demonstrates the occurrence of large chromosome markers in MFH and suggests that the regions 6q21 approximately q23, 8p21 approximately pter, 8q24 approximately qter, and 12q13 approximately q21 might harbor oncogenes that could play a role in MFH's tumorigenesis. In addition, gain of 12q13 approximately q21, which is typical of well-differentiated liposarcoma, may also occur in MFH, supporting the previously suggested overlap in genetic etiologies between these two tumor types.     

Genetic abnormalities detected by comparative genomic hybridization in a human endometriosis-derived cell line

Comparative genomic hybridization (CGH) was used in parallel with fluorescence in-situ hybridization (FISH) and conventional karyotyping to perform a genome-wide survey of DNA gains and losses in the endometriosis-derived permanent cell line, FbEM-1. The cytogenetic analysis showed a complex karyotype with numerical changes and multiple chromosome aberrations, including the der(1) complement marker exhibiting a large homogenous staining region (HSR). The chromosomal rearrangement interpreted as der(5) t(5;6)(q34;p11) was found in the majority of the metaphases indicating a clonal abnormality. Repeated CGH experiments demonstrated over-representation of chromosomes 1, 2, 3, 5, 6p, 7, 16, 17q, 20, 21q and 22q, while chromosomes 6q, 9, 11p, 12, 13q, 18 and X were under-represented. Using DNA from the original endometriotic tissues, including a peritoneal implant and ovarian endometrioma, CGH analysis revealed loss of DNA copy number on 1p, 22q and chromosome X, while gain was found on chromosomal arms 6p and 17q. FISH analysis confirmed that the gain at 17q includes amplification of the proto-oncogene HER-2/neu in 16% of the FbEM-1 nuclei and in 12% of cells from the primary ovarian endometrioma tissue. These findings demonstrate that FbEM-1 cells share certain molecular cytogenetic features with the original tissue and suggest that chromosomal instability is important in the development of endometriosis.     

Comparative genomic hybridization of malignant fibrous histiocytoma reveals a novel prognostic marker.

DNA sequence copy number changes were studied by comparative genomic hybridization (CGH) along all chromosomes in 58 samples of malignant fibrous histiocytoma (MFH). The material consisted of 43 primary tumors (9 of myxoid and 34 of storiform-pleomorphic subtype), 13 local recurrences (2 myxoid and 11 storiform-pleomorphic), and 2 metastases (1 myxoid and 1 storiform-pleomorphic). Genetic aberrations, with a mean of 5.5 changes per sample (range, 0 to 22), were detected in 47 of 58 samples (81%). The minimal common regions of the most frequent gains were 1p31 (33%), 9q31 (29%), 5p14-pter (26%), 7q32 (24%), and 7p15-pter (22%). High-level amplifications were detected in 16 of the 58 samples (28%). High-level amplification of 13q31-qter was seen in four tumors (7%); other high-level amplifications were more sporadic. Losses of DNA sequences were less frequent than gains. The minimal common regions of the most common losses were 13q21 (21%) and 13q22 (21%). Statistically significant correlation was found between gain of 7q32 and the rates of worse metastasis-free survival (P = 0.01) and overall survival (P = 0.004). The gain of 7q32 retained its prognostic significance also in a multivariate analysis with tumor size and grade. Gain of 1p31 was associated with a trend to decreased overall survival. Gains of 5p14-pter and 9q31 and losses of 13q21 and/or 13q22 did not have any prognostic value; neither did the total number of aberrations, total number of gains, or total number of losses per sample.     

Oncogene amplification in medulloblastoma: analysis of a case by comparative genomic hybridization and fluorescence in situ hybridization

We describe amplification of the MYCC oncogene in a medulloblastoma with aggressive clinical behavior. The patient was a six year old boy who underwent gross total surgical excision of a cerebellar tumor. Despite chemotherapy and total neuraxis radiation, the clinical course was one of relentless progression, with extensive subarachnoid spread and death within eight months of presentation. The pathological features were consistent with the recently described, "large cell variant" of medulloblastoma. Tumor cells exhibited large vesicular nuclei, prominent nucleoli and strong immunoreactivity for synaptophysin. Polymerase chain reaction (PCR) and fluorescence in situ hybridization (FISH) assay revealed no evidence of MYCN amplification or 1p deletion in the tumor. FISH analysis revealed evidence of MYCC amplification in the 20- to 30-fold range. Comparative genomic hybridization (CGH) revealed regions of gains and amplification in three locations, with gains of chromosome 7, amplification of 8q24 (corresponding to the MYCC locus) and gains of the long arm of chromosome 17 (suggestive of isochromosome 17q). While conventional karyotypic analysis was not successful in the present case, CGH provided invaluable information about gene amplification and losses/gains of chromosomes and chromosomal regions. Thus, CGH is a powerful technique applicable to frozen or paraffin-embedded material which helps to ascertain the presence of gene amplification even without prior knowledge of the gene to be tested.     

Interpretation of the complex karyotype and identification of a new 6p amplicon by integrated comparative genomic hybridization and fluorescence in situ hybridization on the U937-I cell line

Molecular cytogenetics is helpful to identify complex and cryptic genomic changes in malignancy. Human leukemic cell lines are an important tool for advancements of biological research on malignant cells, one critical step being characterization of genomic changes. We used fluorescence in situ hybridization and comparative genomic hybridization to refine karyotypic interpretation of the diffuse histiocytic lymphoma derived U937-1 cell line. From this integrated approach, chromosome material involved in nine karyotypic markers and in unbalanced translocations could be identified. Moreover, a previously undetected amplicon emerged within band 6p21. The U937-I is a new in vitro model to study genome amplification and unknown recombinations in leukemic cells, such as those involving the centromeric region of chromosome 1.     

Aberrations of chromosome 8 in 16 breast cancer cell lines by comparative genomic hybridization, fluorescence in situ hybridization, and spectral karyotyping

Comparative genomic hybridization (CGH) studies have shown that chromosome 8 is a frequent target for chromosomal aberrations in breast cancer. We characterized these aberrations of chromosome 8 in 16 breast cancer cell lines (BT-474, BT-549, CAMA-1, DU-4475, MCF-7, MDA-MB-134, MDA-MB-157, MDA-MB-361, MDA-MB-415, MDA-MB-436, MPE600, SK-BR-3, T-47D, UACC-812, UACC-893 and ZR-75-1) by CGH, fluorescence in situ hybridization (FISH) with arm- and locus-specific probes, and spectral karyotyping (SKY). Chromosome 8 was structurally abnormal in 13 of 16 cell lines. Loss of 8p was detected in nine cell lines, gain of entire 8q in six cell lines, 8q21-qter in three, 8q23-qter in two, and 8q12-qter and 8p21-q21 in one cell line. Extra copies of the C-MYC oncogene were found in 11 cell lines, but high-level amplification only in SK-BR-3. Derivative chromosomes including material from chromosomes 8 were complex, and the breakpoints were strikingly dissimilar. Chromosome 11 was the most frequent translocation partner with chromosome 8 (in 7 cell lines). Isochromosomes and/or isoderivative 8q were found in four cell lines. The high frequency and complexity of alterations at 8q indicate a significant pathogenetic role in breast cancer. The high-level amplification of c-myc is less common than previously thought.     

Cytogenetic aberrations in myelodysplastic syndrome detected by comparative genomic hybridization and fluorescence in situ hybridization.

Conventional cytogenetics (CC) is proven as a diagnostic and prognostic factor in myelodysplastic syndrome (MDS). However, CC may be hampered by insufficient metaphase preparation and cannot analyze interphase nuclei. These problems are solved by using comparative genomic hybridization (CGH). The CGH was applied to samples from 45 patients with MDS, and the results were compared with CC and fluorescence in situ hybridization (FISH). The CC detected aberrations in 12 of 45 samples, including chromosomes 3 (n = 1), 5 (n = 9), 7 (n = 2),8(n = 1), 18(n = 1),21 (n = 1), X (n = 1), and Y(n = 2). In one patient, loss of B and C group chromosomes and a marker chromosome were seen. The CGH revealed chromosomal imbalances in 18 of 45 samples, including chromosomes 5 (n = 11), 7 (n = 2), 8 (n = 1), 18(n = 1), 20(n = 1), 21 (n = 1), X (n = 1), and Y (n = 2). All unbalanced aberrations found by CC were detected by CGH, too. In two patients, the CGH found additional aberrations and redefined the aberrations of the chromosomes of the B and C group in one sample. The FISH confirmed these aberrations. Additionally performed FISH for chromosomes 5, 7, and 8 gave normal findings in all patients found to be normal in CC and CGH. The CGH and FISH confirmed the results obtained by CC. All three techniques showed changes of chromosomes 5 and 7 as the most frequent aberrations, emphasizing the importance of these chromosomes in the development of MDS. Furthermore, the CC is proven as the basic technique for cytogenetic evaluation of MDS.     

Molecular cytogenetic characterization of nasopharyngeal carcinoma cell lines and xenografts by comparative genomic hybridization and spectral karyotyping

Nasopharyngeal carcinoma (NPC) cell lines and xenografts represent valuable models for functional and therapeutic studies on this common malignancy in Southeast Asia. The karyotypic information in most NPC cell lines and xenografts, however, remains largely unclear to date. We have characterized the chromosomal aberrations in six commonly used human NPC cell lines and xenografts using the molecular cytogenetic technique of comparative genomic hybridization (CGH). Genomic imbalances identified in cell lines were further correlated with structural abnormalities indicated from spectral karyotyping (SKY) analysis. CGH revealed consistent overrepresentations of 8q (six out of six cases) with a smallest overlapping region identified on 8q21.1q22. Other common gains included 7p (4/6 cases), 7q (4/6 cases), 12q (4/6), and 20q (4/6 cases), where minimal overlapping regions were suggested on 7p15p14, 7q11.2q21, and 12q22q24.1. Common losses were detected on 3p12p21 (4/6 cases) and 11q14qter (4/6 cases). Although SKY analysis on cell lines revealed predominantly unbalanced rearrangements, reciprocal translocations that involved chromosome 2 [i.e., t(1;2), t(2;3), and t(2;4)] were suggested. Furthermore, SKY examination illustrated additional breakpoints on a number of apparently balanced chromosomes. These breakpoints included 3p21, 3q26, 5q31, 6p21.1p25, 7p14p22, and 8q22. Our finding of regional gains and losses and breakpoints represents information that may contribute to NPC studies in vitro.