Chromosome arm 6q loss is the most common recurrent autosomal alteration detected in primary pediatric ependymoma.

We analyzed 23 samples of primary pediatric ependymoma for significant gains or losses of genomic DNA, using comparative genomic hybridization (CGH) and a rigorous statistical approach. Nine of the tumors in this series (39%) appeared normal by CGH. The remainder had a limited number of regions of genomic imbalance, most often involving losses of chromosome arms 6q and 22q and the X chromosome, or gains of either 1q or 9. Recurrent and exclusive losses of 6q or 22q suggest that these regions harbor tumor suppressor genes that may contribute independently to the pathogenesis of childhood ependymoma.     

Gain of chromosome 17 is the most frequent abnormality detected in neuroblastoma by comparative genomic hybridization.

Neuroblastoma behavior is variable and outcome partially depends on genetic factors. However, tumors that lack high-risk factors such as MYCN amplification or 1p deletion may progress, possibly due to other genetic aberrations. Comparative genomic hybridization summarizes DNA copy number abnormalities in a tumor by mapping them to their positions on normal metaphase chromosomes. We analyzed 29 tumors from nearly equal proportions of children with stage I, II, III, IV, and IV-S disease by comparative genomic hybridization. We found two classes of copy number abnormalities: whole chromosome and partial chromosome. Whole chromosome losses were frequent at 11, 14, and X. The most frequent partial chromosome losses were on 1p and 11q. Gains were most frequent on chromosome 17 (72% of cases). The two patterns of gain for this chromosome were whole 17 gain and 17q gain, with 17q21-qter as a minimal common region of gain. Other common gains were on chromosomes 7, 6, and 18. High level amplifications were detected at 2p23-25 (MYCN region), at 4q33-35, and at 6p11-22. Chromosome 17q gains were associated with 1p and/or 11q deletions and advanced stage. The high frequency of chromosome 17 gain and its association with bad prognostic factors suggest an important role for this chromosome in the development of neuroblastoma.     

Gain of Xq detected by comparative genomic hybridization in elastofibroma

Elastofibroma is a rare, benign, slow-growing degenerative pseudotumor that typically occurs in the subscapular region and has been considered a peculiar fibroblastic proliferation with accumulation of abnormal elastic fibers. Very little is known about the cytogenetic and molecular genetic changes in elastofibroma. In the present study, we analyzed DNA copy number changes in 27 elastofibromas by comparative genomic hybridization. DNA was extracted from 22 archival paraffin-embedded tumor tissues and from 5 fresh frozen samples. Nine (33%) of the 27 cases exhibited DNA copy number changes involving one or two chromosomes, whereas the remaining 18 cases exhibited no DNA copy number changes. The majority of the changes were gains (8 cases), whereas 2 cases showed losses. The most common recurrent gains were at chromosomal locations Xq12-q22 (6 cases) and 19 (2 cases). High-level amplifications and recurrent losses were not observed. There was no correlation between DNA copy number changes and the pseudotumor size. The present study has identified a chromosomal region that may contain genes involved in the development of at least some elastofibromas.     

Chromosomal abnormalities in liver cell dysplasia detected by comparative genomic hybridisation.

BACKGROUND/AIM: The pathogenetic relation between liver cell dysplasia and hepatocellular carcinoma (HCC) is poorly understood. The aim of this study was to determine whether there is a genetic link between liver cell dysplasia and HCC that could support the role of dysplasia as a tumour precursor lesion. METHODS: Microdissection from paraffin wax embedded sections and degenerate oligonucleotide primed polymerase chain reaction (DOP-PCR) were combined to analyse chromosomal imbalances by comparative genomic hybridisation (CGH) in nine HCCs and nodules containing liver cell dysplasia and cirrhosis adjacent to the tumours. Seven cases of large cell changes (LCC) and three cases of small cell changes (SCC) were analysed. The genetic abnormalities detected in liver cell dysplasia were then compared with those present in the corresponding HCC. RESULTS: No abnormalities were detected in LCC and cirrhotic nodules, arguing against the preneoplasic nature of these cell foci. In contrast, a subset of chromosomal alterations present in HCCs was found in the adjacent SCC. CONCLUSIONS: These findings support the preneoplastic status of SCC in human hepatocarcinogenesis.     

Genetic changes in bilateral breast cancer by comparative genomic hybridisation

Abstract The aim of this study is to find any specific genetic defect occurring frequently in bilateral breast cancer by examining the genetic changes of each chromosome using comparative genomic hybridisation (CGH). CGH was conducted for 36 breast cancer tissues taken from patients treated with surgery for bilateral breast cancer. Tumour and control DNAs were hybridised to metaphase chromosome with differential staining with fluorescein and rhodamine-dUTP. An average rate of green (DNA of tumour cell) against red (DNA of a normal peripheral blood lymphocyte) was calculated in these captured metaphase chromosomes and a ratio of more than 1.17 was defined as an acquisition, less than 0.85 as a loss and, finally, more than 2 as amplification. Twenty-six out of 36 cases (72.2%) showed a change in the number of DNA copies by CGH in one or more regions of gene. On average, 5.3 alterations for each chromosome (range, 1–14) were found, and gain was present more than loss at a ratio of 1.3:1. Loci that showed amplification were X, 17q, Xq, 8q, 14q11-21 and 17q22-qter. The locus showing the most gain was the X chromosome, which was observed in 15 (57.7%) out of 26 cases. Loss was most frequently observed in the short arm of chromosome 8. The concordance of genetic transformation of primary cancer and secondary cancer in bilateral breast cancer was an average of 18.7% in synchronous and 10.7% in metachronous cancer, showing higher similarity in synchronous breast cancer.     

Differential loss of chromosome 11q in familial and sporadic parasympathetic paragangliomas detected by comparative genomic hybridization

Parasympathetic paragangliomas (PGLs) represent neuroendocrine tumors arising from chief cells in branchiomeric and intravagal paraganglia, which share several histological features with their sympathetic counterpart sympathoadrenal paragangliomas. In recent years, genetic analyses of the familial form of PGL have attracted considerable interest. However, the majority of paragangliomas occurs sporadically and it remains to be determined whether the pathogenesis of sporadic paraganglioma resembles that of the familial form. Furthermore, data on comparative genetic aberrations are scarce. To provide fundamental cytogenetic data on sporadic and hereditary PGLs, we performed comparative genomic hybridization using directly fluorochrome-conjugated DNA extracted from 12 frozen and 4 paraffin-embedded tumors. The comparative genomic hybridization data were extended by loss of heterozygosity analysis of chromosome 11q. DNA copy number changes were found in 10 (63%) of 16 tumors. The most frequent chromosomal imbalance involved loss of chromosome 11. Six of seven familial tumors and two of nine sporadic tumors showed loss of 11q (86% versus 22%, P = 0.012). Deletions of 11p and 5p were found in two of nine sporadic tumors. We conclude that overall DNA copy number changes are infrequent in PGLs compared to sympathetic paragangliomas and that loss of chromosome 11 may be an important event in their tumorigenesis, particularly in familial paragangliomas.     

Molecular characterisation of patients with subtelomeric 22q abnormalities using chromosome specific array-based comparative genomic hybridisation

The 22q13 deletion syndrome is associated with global developmental delay, absent or delayed speech, and generalised hypotonia. In this study, the size and nature of 22q13 deletions (n=9) were studied in detail by high-resolution chromosome specific array-based comparative genomic hybridisation (array CGH). The deletion sizes varied considerably between the different patients, that is, the largest deletion spanning 8.4 Mb with the breakpoint mapping to 22q13.2 and the smallest deletion spanning 3.3 Mb with the breakpoint mapping to 22q13.31. In one case, a unique subtelomeric 3.9 Mb deletion associated with a 2.0 Mb duplication of 22q13 was observed, adding to a growing number of similar cases identified for other chromosome ends. Remarkably, this patient had signs suggestive of retinitis pigmentosa, which has never been reported before in the 22q13 deletion syndrome. The identification of two pairs of recurrent proximal breakpoints on 22q13 suggests that these specific regions may be prone to recombination, due to yet unknown genome architectural features. In addition to the copy number changes on 22q13, a duplication of approximately 330 kb on 22q11.1 was observed and shown to be a genetic large-scale copy number variation without clinical consequences. The current study failed to reveal relationships between the clinical features and the deletion sizes. Global developmental delay and absent or severely delayed speech were observed in all patients, whereas hypotonia was present in 89% of the cases (8/9). This study underscores the utility of array CGH for characterising the size and nature of subtelomeric deletions, such as monosomy 22q13, and underlines the considerable variability in deletion size in the 22q13 deletion syndrome regardless of the clinical phenotype.     

Frequent genomic imbalances in chromosomes 17, 19, and 22q in peripheral nerve sheath tumours detected by comparative genomic hybridization analysis

Comparative genomic hybridization (CGH) was used to detect changes in relative chromosome copy number in 50 cases of peripheral nerve sheath tumour (PNSTs), including nine malignant peripheral nerve sheath tumours (MPNSTs), 27 neurofibromas (with three plexiform neurofibromas) and 14 schwannomas. Chromosome imbalances were frequently detected in benign as well as malignant PNSTs. In both NF1-associated and sporadic MPNSTs, the number of gains was higher than the number of losses, suggesting proto-oncogene activation during MPNST progression. NF1-asociated MPNSTs exhibited gains of chromosomes 17q and X (2/4 cases each), whereas sporadic MPNSTs showed gains of chromosome 4q (3/5 cases). On the other hand, in benign neurofibromas and schwannomas, the number of losses was higher than the number of gains, suggesting a predominant role of tumour suppressor genes in tumourigenesis. Both sporadic and NF1-associated neurofibromas exhibited losses at chromosome 22q in more than 50% of cases. These chromosomal regions may contain common chromosomal abnormalities characteristic of both types of neurofibromas. In NF1-associated neurofibromas, most frequent losses were found in chromosomes 17 [17p11.2-p13 in nine cases (60%); 17q24-25 in 6 cases (40%)] and 19 [19p13.2 in eight cases (53%); 19q13.2-qter in eight cases (53%)], whereas in sporadic neurofibromas and schwannomas losses of chromosomes 17 and 19 were detected in less than 50% of cases. Since this 17p11.2-p13 region is known to contain the tumour suppressor gene TP53, patients with NF1 may be at high risk of malignant neoplasms including MPNSTs. Gains were more frequently detected in plexiform neurofibromas (2/3 cases) than other benign tumours, suggesting proto-oncogene activation in tumourigenesis of plexiform neurofibroma. The significance of the losses of chromosome 19 in these cases is not clear at present, but in NF1-associated neurofibromas, the presence of some as yet unknown tumour suppressor genes on chromosome 19 cannot be ruled out.     

Identification of extensive genomic loss and gain by comparative genomic hybridisation in malignant astrocytoma in children and young adults

Although astrocytomas are the most common central nervous system tumours in all age groups, there is substantial evidence that tumours arising in young patients (< 25 years of age) do not have the same genetic abnormalities that are characteristic of tumours in older patients. Furthermore, novel, consistent changes have not been identified in astrocytomas in children and young adults. We analysed 13 malignant astrocytomas from young patients using comparative genomic hybridisation. Regions of genomic imbalance were identified in 10 cases. The most common recurrent copy number aberrations were loss of 16p (54% of cases), 17p (38%), 19p (38%), and 22 (38%) and gain on 2q (38%), 12q (38%), 13 (38%), 4q (31%), 5q (31%), and 8q (31%). Seven regions of high copy number amplification were observed at 8q21-22 (three cases), 7q22-23 (two cases), and 1p21-22, 2q22, 12q13-pter, 12q15-21, and 13q11-14 (one case each). This study provides evidence of new characteristic chromosomal imbalances from which potential candidate genes involved in the development of malignant astrocytoma in children and young adults may be identified.     

Genetic changes in intraductal breast cancer detected by comparative genomic hybridization.

Ductal carcinoma in situ (DCIS) is considered a direct precursor of invasive ductal breast cancer (IDC). We combined tissue microdissection and comparative genomic hybridization to identify genetic changes in five DCIS lesions with no invasion and in two that were adjacent to IDC. Extensive genetic changes characterized pure DCIS cases with gains of 1q, 6q, 8q, and Xq as well as losses of 17p and chromosome 22 being most often involved. Except for the Xq gain, these changes are also common to IDC. Separate analysis of DCIS and IDC components in the same tumor revealed an almost identical pattern of genetic changes in one case, whereas substantial differences were found in another. We conclude that many of the common genetic changes in IDC may take place before development of invasive growth. However, a simple linear progression model may not always account for the DCIS-IDC transition.     

室管膜瘤染色体DNA失衡的比较基因组杂交研究

目的 探讨室管膜瘤基因组DNA失衡与其组织学类型、分级和部位及患者性别和年龄的关系.方法 用比较基因组杂交检测了16例室管膜瘤的染色体基因组DNA获得和丢失.结果 16例室管膜瘤的基因组DNA获得和丢失检出率分别为15/16和13/16,共发现24个有DNA获得和19个有DNA丢失的染色体区带.黏液乳头状型(WHO Ⅰ级)的获得和丢失区带数均最多,而富于细胞型(WHOⅡ级)和伸长细胞型(WHOⅡ级)的这些异常均多于间变性室管膜瘤(WHOⅢ级).部分获得和丢失区带仅见于黏液乳头状型、富于细胞型、伸长细胞型和间变性中的一种类型,使这些室管膜瘤亚型呈现特征性基因组DNA失衡谱.黏液乳头状型、富于细胞型和伸长细胞型均常出现+7;前两者均有+5,后两者均有-22q;间变性组中+1q 最常见,但无其他亚型常见的+5、+7、-4q、-19q和-22q.任何获得和丢失区带的检出率均无性别差异(P>0.05);≤30岁组和颅内组均以+1q和+7p最常见,>30岁组和脊髓组均以+7最常见,≤30岁组与>30岁组及颅内组与脊髓组比较,三者的检出率差异均有统计学意义(P<0.05).结论 室管膜瘤的基因组DNA失衡频率随其级别升高而相应减少,以上各亚型的特征性基因组DNA失衡谱是决定它们组织学表型和级别的分子遗传学基础,+1q、+5、+7p、+7、-4q、-19q和-22q是评价其生物学行为和患者预后的重要分子遗传学标志.     

Coordinate deletion of chromosome 3p and 11q in neuroblastoma detected by comparative genomic hybridization

Neuroblastoma, the most common extracranial solid tumor of childhood, is associated with a number of genetic abnormalities that are prognostically significant. The most common abnormalities are associated with aggressive clinical behavior and include deletion of distal chromosome 1p, NMYC amplification, and unbalanced gain of the long arm of chromosome 17. There are also other recurrent, but less frequent abnormalities, the clinical significance of which is uncertain. These less common abnormalities include deletion 3p, 11q, and 14q. To gain further clinical insight into some of the less commonly observed abnormalities in neuroblastoma, we performed comparative genomic hybridization (CGH) analysis on 24 primary and metastatic neuroblastomas (6 stage 2, 5 stage 3, 11 stage 4, and 2 stage 4). Nineteen of these tumors were prechemotherapy. A total of 190 abnormalities were detected from these tumors. Four of the 24 tumors studied showed loss of 11q material, with 3 of these tumors also possessing distal chromosome 3p deletions. Our results provide confirmation that deletion of chromosome 3p is nonrandomly associated with deletion of chromosome 11q in neuroblastoma. However, analysis of our results, along with other results reported in the literature, indicate that there is no statistically significant association between 3p and 11q loss and more clinically aggressive tumors.     

Aberrations of chromosomes 5 and 8 as recurrent cytogenetic events in anaplastic carcinoma of the thyroid as detected by fluorescence in situ hybridisation and comparative genomic hybridisation

Comparative genomic hybridisation (CGH) is a technique which identifies gains and losses of DNA sequence copy number in tumours. We used CGH to search for genetic changes in one of the most aggressive malignancies--anaplastic thyroid carcinoma (ATC). For this purpose, we analysed tumour specimens of nine ATCs and DNA of two ATC cell lines. CGH detected aberrations in 10 of 11 samples, with a mean number of gains or losses per carcinoma of 4.8 (range 0-13). Total or partial changes of chromosome 8 (n=6), including gains or losses of 8p (n=6) or 8q (n=5) were those detected most frequently. Chromosome 5p was amplified in five cases. Gains in two of three samples were found for 3q, 7p, 11q and 20q. Gains in a fewer number were seen for 1p (1 case), 1q (1), 7q (2), 9q (2), 11p (2), 12q (1), 14 (1), 15 (1), 17q (2), 18p (2), 18q (1), 20p (1), 21 (2), Xp (2) and Xq (2). Losses were less frequent than gains and observed for 1p (2 cases), 1q (1), 2p (1), 2q (2), 3p (2), 3q (1), 4q (2), 6q (1), 9p (2), 9q (1), 18p (1), 18q (1) and Y (2). Examples of analysis of tumour sections and cell lines performed by fluorescence in situ hybridisation (FISH) confirmed the gains and losses found by CGH and detected additional signals for 8q21 in tumour cells in a sample with no gains or losses normally in CGH. The results suggest that aberrations of 5p, 8p and 8q, which are rarely found in differentiated thyroid carcinoma, may play an important role in the development of ATC. Therefore, these chromosomes could harbour gene loci potentially involved in the aggressiveness of neoplastic tumours, as shown in tumours such as in this study for ATC.     

Common genetic changes in hereditary and sporadic pituitary adenomas detected by comparative genomic hybridization

Twenty-four pituitary adenomas, both the sporadic type (n = 18) and the type arising in association with either multiple endocrine neoplasia, type 1 (MEN1; n = 2), or Carney complex (CNC, n = 4) were analyzed by comparative genomic hybridization. Twenty-one (88%) tumors displayed chromosomal alterations. The number of chromosomal aberrations in each tumor varied from 2 to greater than 10. Several recurrent chromosomal abnormalities were identified in this study. The most frequently detected losses of chromosomal material involved 1p (14 of 24, 58%), 11p (11 of 24, 46%), 17 (10 of 24, 42%), 16p (9 of 24, 38%), 4 (8 of 24, 33%), 10p (6 of 24, 25%), 12 (6 of 24, 25%), 20 (6 of 24, 25%), 22q (6 of 24, 25%), 13q (5 of 24, 21%), and 9p (4 of 24, 17%). Copy number increases were detected on 4q (7 of 24, 29%), 17 (8 of 24, 33%), 19 (7 of 24, 29%), 1p (6 of 24, 25%), 5 (6 of 24, 25%), 20 (6 of 24, 25%), 6q (5 of 24, 21%), 13q21-qter (5 of 24, 21%), and 16p (5 of 24, 21%). Chromosome 11 loss, which involved 11p in all cases, was the most significant finding and was common to tumors arising sporadically and in association with MEN1 and CNC. In addition, the majority of the tumors (18 of 24, 75% overall and 86% of all tumors with chromosomal abnormalities) showed involvement of chromosome 1. Tumors had either loss (14 of 24, 58%) or gain (6 of 24, 25%) in the 1p32-1pter region. Finally, changes on chromosome 17, either loss or gain, occurred in 71% (17) of all 24 patients. In summary, all the tumors with chromosomal rearrangements (21 of 24, 88%), whether sporadic pituitary adenomas or those associated with MEN1 or CNC, had alteration(s) of 1p32, 11p, or 17.     

Recurrent chromosome changes in 62 primary gastric carcinomas detected by comparative genomic hybridization

Comparative genomic hybridization (CGH) has been applied to detect recurrent chromosome alterations in 62 primary gastric carcinomas. Several nonrandom chromosomal changes, including gains of 8q (31 cases, 50%), 20q (29 cases, 47%) with a minimum gain region at 20q11. 2-q12, 13q (21 cases, 34%) with a minimum gain region at 13q22, and 3q (19 cases, 31%) were commonly observed. The regions most frequently lost included: 19p (23 cases, 37%), 17p (21 cases, 33%), and 1p (14 cases, 23%). High copy number gain (DNA sequence amplification) was detected in 6 cases. Amplification of 8q23-q24.2 and 20q11.2-q12 were observed in 3 cases. Gain of 20q and loss of 19p were confirmed by fluorescence in situ hybridization using corresponding bacterial artificial chromosomes (BAC) clones from those regions. The gain and loss of chromosomal regions identified in this study provide candidate regions involved in gastric tumorigenesis.     

Gain of 3q and deletion of 11q22 are frequent aberrations in mantle cell lymphoma

We used comparative genomic hybridization (CGH) to screen for DNA copy number changes in 34 specimens from 27 cases of mantle cell lymphoma (MCL). The most common gains were detected at 3q (52%), 8q (30%), and 15q (26%), whereas the most frequent losses involved 13q (41%), 1p (33%), 6q (30%), 9p (30%), and 11q (30%). The gain of 3q, with a minimal common region at 3q26.1-27, appeared in more than half of the lymphomas, suggesting the location of an important oncogene here. A common deleted region at 11q22 was found in one-third of the patients, which suggests that this region may harbor a tumor suppressor gene important in the tumorigenesis of MCL. The mean number of changes was higher in more aggressive blastoid variants of MCL than in lymphomas with typical morphology. Our results show that the chromosomal regions affected in MCL are highly consistent and are different from those seen in other types of non-Hodgkin's lymphoma. Genes Chromosomes Cancer 21:298–307, 1998. © 1998 Wiley-Liss, Inc.