High resolution genome-wide analysis of chromosomal alterations in Burkitt's lymphoma

Additional chromosomal abnormalities are currently detected in Burkitt's lymphoma. They play major roles in the progression of BL and in prognosis. The genes involved remain elusive. A whole-genome oligonucleotide array CGH analysis correlated with karyotype and FISH was performed in a set of 27 Burkitt's lymphoma-derived cell lines and primary tumors. More than half of the 145 CNAs<2 Mb were mapped to Mendelian CNVs, including GSTT1, glutathione s-transferase and BIRC6, an anti-apoptotic protein, possibly predisposing to some cancers. Somatic cell line-specific CNVs localized to the IG locus were consistently observed with the 244 K aCGH platform. Among 136 CNAs >2 Mb, gains were found in 1q (12/27), 13q (7/27), 7q (6/27), 8q(4/27), 2p (3/27), 11q (2/27) and 15q (2/27). Losses were found in 3p (5/27), 4p (4/27), 4q (4/27), 9p (4/27), 13q (4/27), 6p (3/27), 17p (3/27), 6q (2/27),11pterp13 (2/27) and 14q12q21.3 (2/27). Twenty one minimal critical regions (MCR), (range 0.04–71.36 Mb), were delineated in tumors and cell lines. Three MCRs were localized to 1q. The proximal one was mapped to 1q21.1q25.2 with a 6.3 Mb amplicon (1q21.1q21.3) harboring BCA2 and PIAS3. In the other 2 MCRs, 1q32.1 and 1q44, MDM4 and AKT3 appeared as possible drivers of these gains respectively. The 13q31.3q32.1 <89.58–96.81> MCR contained an amplicon and ABCC4 might be the driver of this amplicon. The 40 Kb 2p16.1 <60.96–61> MCR was the smallest gained MCR and specifically encompassed the REL oncogene which is already implicated in B cell lymphomas. The most frequently deleted MCR was 3p14.1 <60.43–60.53> that removed the fifth exon of FHIT. Further investigations which combined gene expression and functional studies are essential to understand the lymphomagenesis mechanism and for the development of more effective, targeted therapeutic strategies.

Two populations of double minute chromosomes harbor distinct amplicons, the MYC locus at 8q24.2 and a 0.43-Mb region at 14q24.1, in the SW613-S human carcinoma cell line

High-level amplifications observed in tumor cells are usually indicative of genes involved in oncogenesis. We report here a high resolution characterization of a new amplified region in the SW613-S carcinoma cell line. This cell line contains tumorigenic cells displaying high-level MYC amplification in the form of double minutes (DM(+) cells) and non tumorigenic cells exhibiting low-level MYC amplification in the form of homogeneously staining regions (DM(-) cells). Both cell types were studied at genomic and functional levels. The DM(+) cells display a second amplification, corresponding to the 14q24.1 region, in a distinct population of DMs. The 0.43-Mb amplified and overexpressed region contains the PLEK2, PIGH, ARG2, VTI1B, RDH11, and ZFYVE26 genes. Both amplicons were stably maintained upon in vitro and in vivo propagation. However, the 14q24.1 amplicon was not found in cells with high-level MYC amplification in the form of HSRs, either obtained after spontaneous integration of endogenous DM MYC copies or after transfection of DM(-) cells with a MYC gene expression vector. These HSR-bearing cells are highly tumorigenic. The 14q24.1 amplification may not play a role in malignancy per se but might contribute to maintaining the amplification in the form of DMs.

MYCN-non-amplified metastatic neuroblastoma with good prognosis and spontaneous regression: a molecular portrait of stage 4S

Stage 4 neuroblastoma (NB) are heterogeneous regarding their clinical presentations and behavior. Indeed infants (stage 4S and non-stage 4S of age <365days at diagnosis) show regression contrasting with progression in children (>365days). Our study aimed at: (i) identifying age-based genomic and gene expression profiles of stage 4 NB supporting this clinical stratification; and (ii) finding a stage 4S NB signature. Differential genome and transcriptome analyses of a learning set of MYCN-non amplified stage 4 NB tumors at diagnosis (n=29 tumors including 12 stage 4S) were performed using 1Mb BAC microarrays and Agilent 22K probes oligo-microarrays. mRNA chips data following filtering yielded informative genes before supervised hierarchical clustering to identify relationship among tumor samples. After confirmation by quantitative RT-PCR, a stage 4S NB's gene cluster was obtained and submitted to a validation set (n=22 tumors). Genomic abnormalities of infant's tumors (whole chromosomes gains or loss) differ radically from that of children (intra-chromosomal rearrangements) but could not discriminate infants with 4S from those without this presentation. In contrast, differential gene expression by looking at both individual genes and whole biological pathways leads to a molecular stage 4S NB portrait which provides new biological clues about this fascinating entity.

Expression of C-terminal deleted p53 isoforms in neuroblastoma

The tumor suppressor gene, p53, is rarely mutated in neuroblastomas (NB) at the time of diagnosis, but its dysfunction could result from a nonfunctional conformation or cytoplasmic sequestration of the wild-type p53 protein. However, p53 mutation, when it occurs, is found in NB tumors with drug resistance acquired over the course of chemotherapy. As yet, no study has been devoted to the function of the specific p53 mutants identified in NB cells. This study includes characterization and functional analysis of p53 expressed in eight cell lines: three wild-type cell lines and five cell lines harboring mutations. We identified two transcription-inactive p53 variants truncated in the C-terminus, one of which corresponded to the p53β isoform recently identified in normal tissue by Bourdon et al. [J. C. Bourdon, K. Fernandes, F. Murray-Zmijewski, G. Liu, A. Diot, D. P. Xirodimas, M. K. Saville and D. P. Lane (2005) Genes Dev., 19, 2122–2137]. Our results show, for the first time, that the p53β isoform is the only p53 species to be endogenously expressed in the human NB cell line SK-N-AS, suggesting that the C-terminus truncated p53 isoforms may play an important role in NB tumor development.

High promoter hypermethylation frequency of p14/ARF in supratentorial PNET but not in medulloblastoma

AIMS

Medulloblastoma (MB) is the most common primitive neuroectodermal tumour (PNET) of the central nervous system. Although supratentorial PNET (sPNET) and MB are histologically similar, their clinical behaviour differs, sPNET being more aggressive than MB. The aim of this study was to determine whether sPNET and MB are genetically different entities.

METHODS AND RESULTS

We investigated 32 PNET primary tumour samples (23 MB and nine sPNET) and four PNET cell lines, for the presence of CDKN2A homozygous deletions at exon 1-alpha of p16/INK4 and exon 1-beta of p14/ARF, and promoter hypermethylation of both genes. No homozygous deletion of either p16/INK4 or p14/ARF was demonstrated in any of the PNET primary tumour samples. Methylation of p16/INK4 was found in one of six sPNET and in one of 23 MB, while p14/ARF methylation was observed in three of six sPNET and in three of 21 MB. No methylation of p16/INK4 or p14/ARF was found in any of the PNET cell lines analysed. The three MB cell lines did not show p16/INK4 expression, and only the MB Daoy cell line (homozygously deleted at CDKN2A) presented loss of p14/ARF expression.

CONCLUSIONS

Our results in this limited series of central PNET show that p14/ARF is frequently involved in PNET carcinogenesis, with a higher frequency, but not statistically significant, for sPNET than for MB.

Genetic heterogeneity in supratentorial and infratentorial primitive neuroectodermal tumours of the central nervous system

AIMS

Medulloblastoma (MB), a kind of infratentorial primitive neuroectodermal tumour (PNET), is the most frequent malignant brain tumour in childhood. In contrast, supratentorial PNET (sPNET) are very infrequent tumours, but they are histologically similar to MB, although they present a worse clinical outcome. We investigated the differences in genetic abnormalities between sPNET and MB.

METHODS AND RESULTS

We analysed 20 central PNET (14 MB and six sPNET) by conventional comparative genomic hybridization (CGH) in order to determine whether a different genetic profile for each tumour exists. Isochromosome 17q was detected in four of the 14 MB cases, but not in any sPNET. Gains at 17q and 7 happened more frequently in MB, and those at 1q in sPNET. Losses at chromosome 10 were detected only in MB, while losses at 16p and 19p happened more frequently in sPNET. A new amplification site, on 4q12, was detected in two MB.

CONCLUSIONS

Central PNET are a heterogeneous group of tumours from the genetic point of view. The present and previous data, together with further results from larger series, might contribute to the establishment of specific treatments for supratentorial and infratentorial PNET.

High frequency trans-splicing in a cell line producing spliced and polyadenylated RNA polymerase I transcripts from an rDNA-myc chimeric gene

The 2G1MycP2Tu1 cell line was obtained following transfection of human colon carcinoma cells from the SW613-S cell line with a plasmid carrying a genomic copy of the human MYC gene. 2G1MycP2Tu1 cells produce MYC mRNAs and proteins of abnormal size. In order to analyze the structure of these abnormal products, a cDNA library constructed using RNA isolated from these cells was screened with a MYC probe. Fifty clones were studied by DNA sequencing. The results indicated that a truncated copy of the MYC gene had integrated into an rDNA transcription unit in 2G1MycP2Tu1 cells. This was confirmed by northern blot analysis, PCR amplification on genomic DNA and fluorescent in situ hybridization (FISH) experiments on metaphase chromosomes. 2G1MycP2Tu1 cells produce hybrid rRNA-MYC RNA molecules that are polyadenylated and processed by splicing reactions involving natural and cryptic splice sites. These transcripts are synthesized by RNA polymerase I, as confirmed by actinomycin D sensitivity experiments, suggesting that 3′ end processing and splicing are uncoupled from transcription in this case. 2G1MycP2Tu1 cells also produce another type of chimeric mRNAs consisting of correctly spliced exons 2 and 3 of the MYC gene fused to one or more extraneous 5′ exons by proper splicing to the acceptor sites of MYC exon 2. These foreign exons belong to 33 different genes, which are located on 14 different chromosomes. These observations and the results of FISH and Southern blotting experiments lead us to conclude that trans-splicing events occur at high frequency in 2G1MycP2Tu1 cells.

Characterization of quantitative chromosomal abnormalities in renal cell carcinomas by interphase four-color fluorescence in situ hybridization

Renal cell carcinomas (RCC) in adults are histologically heterogeneous solid tumors with specific chromosomal abnormality patterns included in the World Health Organization (WHO) classification. To overcome some of the drawbacks of cytogenetic and comparative genomic hybridization (CGH) analyses, we designed a first-generation cytogenetic diagnostic test using four-color fluorescence in situ hybridization (FISH) on interphase nuclei. We selected 51 bacterial artificial chromosome and P1-derived artificial chromosome clones covering 17 chromosomal regions involved in the abnormalities of the adult RCC histologic subtypes. An initial set of probes allowed the identification of clear-cell RCC, papillary RCC, and other RCC on a single slide. A second test allowed the detection of additional chromosomal abnormalities or aberrations specific to chromophobic RCC and oncocytomas. We tested 25 cases of RCC, and the results were in agreement with those of cytogenetic techniques and/or CGH methods. The techniques appeared to be very sensitive, because small tumoral cell clones that were undetected by other cytogenetic methods were identified with this method. It was concluded that the multicolor FISH test was specific and sensitive, easy to perform, and could be part of the investigation process in RCC.

Alternative pathways of MYCN gene copy number increase in primary neuroblastoma tumors

Neuroblastomas, tumors of the sympathetic nervous system, account for 7-10% of the cancers of childhood. Genetic studies have shown, and this study has confirmed, that neuroblastomas are very heterogeneous; no single genetic change common to all neuroblastomas has yet been identified. One genetic aberration found frequently in this pediatric tumor is MYCN gene amplification. Recently we identified a new subset of tumors showing MYCN gain (small increases in gene number arising from unbalanced translocation). To investigate whether gain precedes amplification or is an independent event, we surveyed 200 primary tumors for MYCN copy number with fluorescence in situ hybridization; 152 of 200 (76%) were MYCN single-copy tumors, whereas 48 of 200 (24%) tumors harbored MYCN abnormalities: 36 of the 48 (75%) had MYCN amplification and 12 (25%) had MYCN gain. Among the 36 with MYCN amplified gene, we found four that also showed gain. In three tumors exhibiting simultaneous gain and amplification, these two events were detected in neighboring cells. In the fourth case we detected only MYCN gain in metastatic neuroblasts in the bone marrow, but both MYCN amplification and gain in the primary tumor. The detailed study of these four cases suggests that there may be several different mechanisms leading to increase in MYCN copy number. Further studies in other human malignancies are necessary to determine whether simultaneous gain and amplification are specific to neuroblastoma or constitute a general mechanism by which tumor cells can acquire selective growth advantage.

Detecting single DNA copy number variations in complex genomes using one nanogram of starting DNA and BAC-array CGH

Comparative genomic hybridization to bacterial artificial chromosome (BAC)-arrays (array-CGH) is a highly efficient technique, allowing the simultaneous measurement of genomic DNA copy number at hundreds or thousands of loci, and the reliable detection of local one-copy-level variations. We report a genome-wide amplification method allowing the same measurement sensitivity, using 1 ng of starting genomic DNA, instead of the classical 1 microg usually necessary. Using a discrete series of DNA fragments, we defined the parameters adapted to the most faithful ligation-mediated PCR amplification and the limits of the technique. The optimized protocol allows a 3000-fold DNA amplification, retaining the quantitative characteristics of the initial genome. Validation of the amplification procedure, using DNA from 10 tumour cell lines hybridized to BAC-arrays of 1500 spots, showed almost perfectly superimposed ratios for the non-amplified and amplified DNAs. Correlation coefficients of 0.96 and 0.99 were observed for regions of low-copy-level variations and all regions, respectively (including in vivo amplified oncogenes). Finally, labelling DNA using two nucleotides bearing the same fluorophore led to a significant increase in reproducibility and to the correct detection of one-copy gain or loss in >90% of the analysed data, even for pseudotriploid tumour genomes.

Stromal cells and human malignant neuroblasts derived from bone marrow metastasis may share common karyotypic abnormalities: the case of the IGR-N-91 cell line

BACKGROUND

Stage IV neuroblastoma is characterized by tumor invasion and metastatic dissemination. Cell lines derived from such neuroblastomas have a high in vitro proliferation capacity.

PROCEDURE

We established three neuroblastoma cell lines derived from involved bone marrow of three patients with stage IV neuroblastoma and performed a cytogenetic study.

RESULTS

Various culture conditions allowed us to distinguish two cell subpopulations: malignant neuroblasts (Nb-type) and substrate-adherent stromal cells (Str-type). Karyotypic analyses revealed two specific chromosomal abnormalities in diploid malignant IGR-N-331 neuroblasts, der(1)t(1;7)(p22;q11) and der(5)t(5;17)(q35;q21), one unbalanced translocation der(1)t(1;17)(p35;q21)x2 in hyperdiploid malignant IGR-N-337 neuroblasts, and a normal karyotype in both corresponding stromal subpopulations. In contrast, in the IGR-N-91 model, both cell types shared two unbalanced translocations, t(1;4)(q12;p15) and t(2;10)(p14;q11), suggesting that stromal cells and malignant neuroblasts originate from a common stem cell.

CONCLUSIONS

Based on our findings, we postulate that genetically modified stromal cells may influence the metastatic potential of malignant neuroblasts.

Mapping of the 7q31 subregion common to the small chromosome 7 derivatives from two sporadic papillary renal cell carcinomas: increased copy number and overexpression of the MET proto-oncogene

Molecular cytogenetic analysis of several sporadic papillary renal cell carcinomas and of their xenografts in immunodeficient mice had previously allowed us to delimit a minimal overrepresented region of chromosome 7 shared by all of them to band 7q31. We have refined the location of the overlapping region to the junction of the subbands 7q31.2 and 7q31.3 by reverse painting with two differently labelled probes prepared from the small chromosome 7 derivatives microdissected from the cells of two distinct tumours. This small region was shown to contain the MET proto-oncogene, present at three to four copies per cell as determined by Southern blot analysis. The increased copy number of the MET gene was found to be associated with its overexpression at the mRNA level. However, no change in MET copy number or expression level was observed in the cells from two xenografted tumours serially transplanted into immunodeficient mice, as compared to those from the corresponding initial tumours. Our results indicate that expression of the MET proto-oncogene above a critical threshold is required for the maintenance of the tumorigenic phenotype of at least some papillary renal cell carcinomas, but does not further increase during tumour progression.

Gain of chromosome arm 17q and adverse outcome in patients with neuroblastoma

BACKGROUND

Gain of genetic material from chromosome arm 17q (gain of segment 17q21-qter) is the most frequent cytogenetic abnormality of neuroblastoma cells. This gain has been associated with advanced disease, patients who are > or =1 year old, deletion of chromosome arm 1p, and amplification of the N-myc oncogene, all of which predict an adverse outcome. We investigated these associations and evaluated the prognostic importance of the status of chromosome 17.

METHODS

We compiled molecular cytogenetic analyses of chromosome 17 in primary neuroblastomas in 313 patients at six European centers. Clinical and survival information were collected, along with data on 1p, N-myc, and ploidy.

RESULTS

Unbalanced gain of segment 17q21-qter was found in 53.7 percent of the tumors, whereas the chromosome was normal in 46.3 percent. The gain of 17q was characteristic of advanced tumors and of tumors in children > or =1 year of age and was strongly associated with the deletion of 1p and amplification of N-myc. No tumor showed amplification of N-myc in the absence of either deletion of 1p or gain of 17q. Gain of 17q was a significant predictive factor for adverse outcome in univariate analysis. Among the patients with this abnormality, overall survival at five years was 30.6 percent (95 percent confidence interval, 21 to 40 percent), as compared with 86.0 percent (95 percent confidence interval, 78 to 91 percent) among those with normal 17q status. in multivariate analysis, gain of 17q was the most powerful prognostic factor, followed by the presence of stage 4 disease and deletion of 1p (hazard ratios, 3.4, 2.3, and 1.9, respectively).

CONCLUSIONS

Gain of chromosome segment 17q21-qter is an important prognostic factor in children with neuroblastoma.

Comparative genomic hybridization analysis of sporadic neuroendocrine tumors of the digestive system

Little information is available on the molecular mechanisms underlying neuroendocrine tumorigenesis. To obtain an overview of the genomic imbalances characterizing these tumors, we studied 20 benign or malignant sporadic endocrine gastroenteropancreatic tumors by comparative genomic hybridization. Chromosomal imbalances were found in all tumors. Gains of chromosomal material were more frequent than losses. The most frequent gains were of chromosomes and chromosome arms 5 (55%), 14 (55%), 17q (55%), and 7 (50%). Losses were most frequent from 11q (30%) and 16p (30%). Gains of chromosome 5 did not occur in nonmetastatic tumors, whereas losses of 9p were observed exclusively in intestinal tumors. In addition, we found two high-level amplifications, of 17q11-21 and 19q13. A complementary FISH analysis revealed that the gain in 17q11-21 included amplification of the protooncogene HER2/neu. As in multiple endocrine neoplasia type-1-associated tumors, deletions of chromosome band 11q13 appear to be involved in the development of sporadic digestive tract neuroendocrine tumors, but our results suggest that other chromosomal regions are also involved.

Comparative genomic hybridization analysis of sporadic neuroendocrine tumors of the digestive system

Little information is available on the molecular mechanisms underlying neuroendocrine tumorigenesis. To obtain an overview of the genomic imbalances characterizing these tumors, we studied 20 benign or malignant sporadic endocrine gastroenteropancreatic tumors by comparative genomic hybridization. Chromosomal imbalances were found in all tumors. Gains of chromosomal material were more frequent than losses. The most frequent gains were of chromosomes and chromosome arms 5 (55%), 14 (55%), 17q (55%), and 7 (50%). Losses were most frequent from 11q (30%) and 16p (30%). Gains of chromosome 5 did not occur in nonmetastatic tumors, whereas losses of 9p were observed exclusively in intestinal tumors. In addition, we found two high-level amplifications, of 17q11-21 and 19q13. A complementary FISH analysis revealed that the gain in 17q11-21 included amplification of the protooncogene HER2/neu. As in multiple endocrine neoplasia type-1-associated tumors, deletions of chromosome band 11q13 appear to be involved in the development of sporadic digestive tract neuroendocrine tumors, but our results suggest that other chromosomal regions are also involved.

Recurrent chromosomal abnormalities in hepatocellular carcinoma detected by comparative genomic hybridization

Comparative genomic hybridization (CGH) was used to evaluate and map genomic aberrations in 50 hepatocellular carcinomas (HCCs) from patients chronically infected with hepatitis B virus (HBV). CGH clearly detected nonrandom genomic imbalances. Losses were most prevalent on chromosome regions 4q (70%), 8p (65%), 16q (54%), 17p (51%), 13q and 6q (37% each), and lp (30%). The most frequent gains occurred on 8q (60%), 1q (58%), and 6p and 17q (33% each). In a few cases, sequence amplifications were detected that were mapped to bands 11q12, 12p11, 14q12, and 19q13.1. This study represents the first analysis of primary liver cancers by CGH, and it confirms the presence of previously known chromosomal aberrations in HCC and highlights new quantitative abnormalities and sequence amplifications. These findings should lead to the characterization of new loci involved in liver cancer pathogenesis.

Mapping of the tyrosine kinase receptors trkA (NTRK1), trkB (NTRK2) and trkC(NTRK3) to human chromosomes 1q22, 9q22 and 15q25 by fluorescence in situ hybridization

trk (NTRK) genes encode tyrosine kinase transmembrane receptors that are stimulated by neurotrophins, and are responsible for the transduction of signals controlling neuropoiesis and neuron survival in the central and peripheral nervous system, trkA gene has earlier been assigned to three different loci on chromosome 1. To resolve these conflicting results, and confirm the localization of trkB and trkC, probes specific to each of these related genes were constructed and used in fluorescent in situ hybridization on human metaphase cells. Our results indicate that trkA, trkB and trkC are located in chromosome bands 1q22, 9q22 and 15q25, respectively.

Emergence and scattering of multiple neurofibromatosis (NF1)-related sequences during hominoid evolution suggest a process of pericentromeric interchromosomal transposition

Type 1 neurofibromatosis (NF1) gene encodes for a member of the GTPase activating protein family and is considered to be a tumor suppressor gene. Its very high rate of de novo mutation in humans led us to study a specific feature of this gene: the presence of numerous NF1-related sequences. According to our results, the human genome contains at least 11 NF1-related sequences, nine of which are scattered near centromeric sequences of seven different chromosomes. These NF1-related sequences, whose extent is quite varied according to loci, are unprocessed copies of the NF1 gene, and bear numerous mutations. A phylogenetic analysis of the six largest sequences indicates that they are all derived from a common ancestor, which would have appeared 22-33 million years ago, and was subsequently duplicated several times during hominoid evolution. The most recent duplication and interchromosomal transposition occurred in the last million years suggesting that the process could still be ongoing. Intriguing similarities between the evolution of alpha-satellite DNA and NF1-related sequences suggest the involvement of a common genetic mechanism for the generation and pericentric spreading of these NF1 partial copies.

Additional copies of a 25 Mb chromosomal region originating from 17q23.1-17qter are present in 90% of high-grade neuroblastomas

Neuroblastoma shows remarkable heterogeneity, ranging from spontaneous regression to progression toward highly malignant tumors. In search of genetic abnormalities that could explain this variability, we have characterized neuroblastoma tumors by using multiple fluorescent hybridizations. Our results indicate that chromosome 17 is rearranged very frequently in the form of unbalanced translocations with numerous chromosomal partners, all leading to the presence of supernumerary copies of a 25 Mb chromosomal region originating from 17q23.1-qter. Additional 17q material was detected in more than 90% of untreated high-grade neuroblastomas and, along with 1p36 deletion, should represent the most frequent genetic abnormality of neuroblastoma observed until now.

Assignment of the NTRK4 (trkE) gene to chromosome 6p21

Reverse transcriptase-polymerase chain reactions using foetal brain RNA with reverse and forward primers of the first, second and third NTRK4 region allowed us to obtain three amplified NTRK4 fragments. The specificity of amplified fragments was checked by digestion with restriction endonucleases AvrII, HindIII and PspII for the first, second and third regions, respectively. Each restriction site was specific for each amplified fragment. The fragment of the NTRK4 first region was also sequenced and the sequence determined was identical to the human NTRK4 sequence. The three amplified fragments were cloned in pBS. For the Southern technique, plasmid pBS-NTRK4a (with an insert of 1052 bp) detected a human 9-kb HindIII sequence which was localised unambiguously on chromosome 6. For fluorescence in situ hybridisation, the three plasmids, pBS-NTRK4a, pBS-NTRK4b (insert 924 bp) and pBS-NTRK4c (insert 1114 bp) were pooled and used as a probe. This NTRK4 probe was localised on 6p21. Of 50 metaphases analysed, 49 contained twin spot signals on both sister chromatids.

MDM2 amplification in a primary alveolar rhabdomyosarcoma displaying a t(2;13)(q35;q14)

This report describes a case of rhabdomyosarcoma associated with a 2;13 translocation and multiple double minute chromosomes. The origin of the amplified DNA was identified using comparative genomic hybridization, which pinpointed a unique spot at 12q13-->q14. Band 12q13 has been shown to contain several genes that are occasionally amplified in other sarcomas. Fluorescene in situ hybridization to tumor metaphases with probes specific for this region indicated that the double minutes contained the MDM2 gene but not the CDK4 gene. MDM2 amplification was further quantified by Southern hybridization, which showed a mean value of 25 copies per haploid genome. This is the first example of MDM2 amplification in a rhabdomyosarcoma.

A Tsp509I variant in exon 13 of the neurofibromatosis type 1 (NF1) gene allows the identification of both alleles at the mRNA level

We describe here a new sequence variant occurring in the coding region of the neurofibromatosis (NF1) gene (exon 13). This exonic polymorphism can be directly investigated by simple restriction enzyme digestion of RT-PCR (reverse transcription-polymerase chain reaction) products, making it a powerful tool for examining allele-specific mRNA expression levels.

Neurofibromatosis 1 (NF1) mRNAs expressed in the central nervous system are differentially spliced in the 5' part of the gene

The neurofibromatosis 1 gene seems to play essential roles at several different stages of life. During embryogenesis, it is involved in cardiac development while in the adult, neurofibromin (the corresponding protein) is mainly expressed in the nervous system, and therein, essentially in neurons, non-myelinating Schwann cells and oligodendrocytes. In addition, the NF1 gene is considered a tumor suppressor gene, since mutations have been associated with the occurrence of benign and malignant tumors in neuralcrest-derived tissues. Using reverse transcription-polymerase chain reaction (RT-PCR) analyses with primers located in exons 7 and 13, we have identified evidence of alternative splicing in this region of the NF1 gene. Cloning and sequencing of cDNA allowed the characterization of an isoform bearing an extra 30 bp sequence between exons 9 and 10a, leading to the insertion of 10 amino acids between residues 420 and 421 of neurofibromin. The insertion is conserved in the mouse. Examination of the pattern of expression of this isoform demonstrated a high level of expression in the central nervous system and an absence of expression in all the other normal tissues tested including peripheral nervous tissues derived from the neural crest. Analysis of brain tumors indicated a reduced expression of the alternative exon in medulloblastomas and oligodendrogliomas. The results presented here are consistent with tissue-specific expression of this alternative exon which we propose to call exon 9br.

A new hybrid cell line containing only human chromosome 15 selected through fluorescence in situ hybridization and characterized by Alu-PCR amplification of the human DNA

Human Cot1 DNA directly labeled with dUTP-fluorochromes (FITC, Rhodamin) and used as a probe, allowed rapid detection of one or a few human chromosomes in human-hamster hybrid cells by in situ hybridization (FISH). A hybrid cell line containing only a human acrocentric chromosome was isolated (CH35B2D). The DNA from this hybrid was used for PCR amplification with a single Alu (A33) primer. After agarose gel electrophoresis, a continuum of intense bands of between 400-700 bp was observed with A33-PCR products. No amplified product was visible with hamster DNA. FISH on normal human metaphases of biotinylated Alu-PCR products obtained with Alu A33 and compétition with human Cot1 DNA showed decoration, with high specificity for chromosome 15. It was identified after R banding obtained with PI or DAPI in an antifade adjusted to pH11 with NaOH. Under the applied conditions, the Alu (A33) products are expected to be useful for characterization, by specific decoration of chromosome 15 aberrations in pathological cells. CH35B2D could be employed for functional studies of genes located on chromosome 15.

Tissue-specific alternative splicing of neurofibromatosis 1 (NF1) mRNA

The neurofibromatosis 1 gene NF1 appears to play a crucial role in regulating the proliferation of cells of neural crest origin. The NF1 gene is a 300 kbp gene, encoding a complex pattern of mRNA related to the presence or absence of two alternative splices. The first splice, in the centre of the coding region of the gene, results in the addition of 63 bp in the GAP-related domain. The second splice located 4203 bp downstream, near the 3' terminus of the coding region of the gene, consists of a 54 bp insert. RT-PCR analysis demonstrates that the most prevalent splice variant in human tissues is the one which contains the GAP-related splice and omits the 3' terminal splice. It is also the form expressed in the peripheral nerve, adrenal medulla, benign NF1 neurofibromas and NF1 neurosarcomas. Conversely, a few organs (brain, muscle) exhibit extensive alternative splicing leading to the co-expression of four distinct transcripts. The reproducibility of the relative levels of each of the splice types in the different organs indicates a tissue-specific splicing pattern of the NF1 gene.

The neurofibromatosis 1 gene transcripts expressed in peripheral nerve and neurofibromas bear the additional exon located in the GAP domain

A second NF1 messenger differing in the GAP domain was recently described. This type II transcript contains an internal additional sequence consisting of an open reading frame, in phase with the preceding and the following sequences and predicts a 21 amino acid addition in the catalytic domain of NF1 protein. In this report we present analysis of the two forms of NF1 transcripts in several normal human tissues and in primary neurofibromatosis tumors. Our results indicate (i) that the type II NF1 messenger displaying the additional exon is very widely expressed in all the normal adult tissues tested, (ii) that it is the form of NF1 messenger expressed in peripheral nerve and neurofibromas, and (iii) that the additional sequence could encode for a peptide related to a nucleoside triphosphatase.

Relative order determination of four Yp cosmids on metaphase and interphase chromosomes by two-color competitive in situ hybridization

Two-color competitive in situ hybridization was used to cytogenetically order four Yp cosmid probes, located in the pseudo-autosomal and TDF regions. The probes were hybridized by pairs to metaphase and interphase chromosomes. On metaphase chromosomes, determination of order between sequences separated by 3 Mb from each other was possible on a statistical basis, whereas the relative position of sequences 0.6 Mb apart could not be determined. On interphase chromosomes the complete order between sequences separated by 0.6-6 Mb was obtained rapidly by measuring the distances between two cosmid spots of every cosmid pair used in 28 to 60 nuclei. Results demonstrate the potential power of fluorescent in situ hybridization at interphase for high resolution cosmid mapping.

Qualitative and quantitative distribution of plasminogen activators in organs from healthy adult mice

Twenty organs from healthy adult mice were tested for plasminogen activator activity. All were positive although specific activities varied 200-fold. Tissues with high activity were lung, uterus, brain and kidney. Endocrine glands were moderately rich in activator activity, and lymphoid tissues were poor. Molecular mass characterization was carried out. Two enzymatic forms were observed in all twenty organs: a 70 kDa form similar to human tissue plasminogen activator and a 48 kDa form analogous to mouse urokinase.

Characterization of simian virus 40 transcriptional intermediates in infected CV1 cell nuclei

Simian Virus (SV40) transcriptional intermediates (T.I.) were isolated from infected cell nuclei incubated in vitro in the presence of the four ribonucleoside triphosphates. The nascent mRNA strands in the viral DNA-RNA hybrid molecules were hydrogen bonded to their template by 200-250 nucleotides on the average, as judged from the extent of their RNase resistance and the aspect of T.I. under electron microscope after treatment with 50 per cent formamide. The RNA polymerase involved (RNA polymerase II) synthesized up to full length transcripts at a rate of approximately 150 nucleotides/min. at 25 degrees C. Each SV40 infected cell was found to contain about 200 active T.I. molecules at the peak of late transcription. The DNA in the T.I. molecules was exclusively form I DNA only in cell infected with the tsA30 mutant of SV40 that had been transferred to non-permissive temperature in order to arrest DNA replication, but both form I DNA and molecules behaving as replicative intermediates (R.I.) in wild type infected cells.