Narcolepsy patients' blood-based miRNA expression profiling: miRNA expression differences with Pandemrix vaccination.

OBJECTIVES: Narcolepsy is a neurological sleep disorder characterized by excessive daytime sleepiness and nighttime sleep disturbance. Among children and adolescents vaccinated with Pandemrix vaccine in Finland and Sweden, the number of narcolepsy cases increased. Our aim was to identify miRNAs involved in narcolepsy and their association with Pandemrix vaccination. MATERIALS AND METHODS: We performed global miRNA proofing by miRNA microarrays followed by RT-PCR verification on 20 narcolepsy patients (Pandemrix-associated and Pandemrix-non-associated) and 17 controls (vaccinated and non-vaccinated). RESULTS: Between all narcolepsy patients and controls, 11 miRNAs were differentially expressed; 17 miRNAs showed significantly differential expression between Pandemrix-non-associated narcolepsy patients and non-vaccinated healthy controls. MiR-188-5p and miR-4499 were over-expressed in narcolepsy patients vs healthy controls. Two miRNAs, miR-1470 and miR-4455, were under-expressed in Pandemrix-associated narcolepsy patients vs Pandemrix-non-associated narcolepsy patients. CONCLUSIONS: We identified miRNA expression patterns in narcolepsy patients that linked them to mRNA targets known to be involved in brain-related pathways or brain disorders.

MicroRNA profiling in chemoresistant and chemosensitive acute myeloid leukemia.

MicroRNA (miRNA) deregulation is associated with progression and treatment outcome in various types of cancers. To identify miRNAs related to therapeutic response, we applied an miRNA microarray followed by PCR verification of 33 available diagnostic bone marrow core biopsies from 33 acute myeloid leukemia patients including 15 chemoresistant and 18 chemosensitive patients. We found 3 significantly upregulated miRNAs, miR-363, miR-532-5p and miR-342-3p, related to therapeutic response (q < 0.05). Further validation of miR-532-5p and miR-363 expression by quantitative RT-PCR confirmed microarray analysis results. Genes targeted by miR-363 include RGS17 and HIPK3, both reported to be associated with drug response.

Localization of a susceptibility locus for Peutz-Jeghers syndrome to 19p using comparative genomic hybridization and targeted linkage analysis.

Many human cancer susceptibility genes have been successfully mapped by genetic linkage studies. One that has so far eluded researchers is that for Peutz-Jeghers (P-J) syndrome, a condition characterized by intestinal hamartomatous polyposis and melanin spots of the lips, buccal mucosa and digits. A dramatically elevated risk of malignancy has also been documented. Gastrointestinal tumours as well as cancers of the breast, ovary, testis and uterine cervix appear to be overrepresented in families with this syndrome. The nature of hamartomatous polyps is equivicol. Hamartomas are usually considered histologically benign, but in the case of Peutz-Jeghers patients, there are reports of adenomatous and malignant changes in the polyps, and the possibility of a hamartoma-carcinoma sequence has been discussed. A search for a putative tumour suppressor locus was made using comparative genomic hybridization (CGH) of Peutz-Jeghers polyps, combined with loss of heterozygosity (LOH) study. Genetic linkage analysis in 12 families using markers from a deletion site demonstrated the presence of a high-penetrance locus in distal 19p with a multipoint lod score of 7.00 at marker D19S886 without evidence of genetic heterogeneity. The study demonstrates the power of CGH combined with LOH analysis in identifying putative tumour suppressor loci, and provides molecular evidence of malignant potential in hamartomas.

Potential role of a navigator gene NAV3 in colorectal cancer.

BACKGROUND: The recently described navigator proteins have a multifaceted role in cytoskeletal dynamics. We report here on the relevance of one of them, navigator 3 (NAV3), in colorectal cancer (CRC). METHODS: We analysed changes in chromosome 12 and NAV3 copy number in CRC/adenoma samples of 59 patients and in 6 CRC cell lines, using fluorescence in situ hybridisation, loss of heterozygosity, and array-CGH. NAV3 target genes were identified by siRNA depletion, expression arrays, and immunohistochemistry. RESULTS: NAV3 deletion and chromosome 12 polysomy were detected in 30 and 70% of microsatellite stability (MSS) carcinomas, in 23 and 30% of adenomas and in four of six CRC cell lines. NAV3 amplification was found in 25% of MSS samples. NAV3 alterations correlated with lymph node metastasis. In normal colon cells, NAV3 silencing induced upregulation of interleukin 23 receptor (IL23R) and gonadotropin releasing hormone receptor. In MSS and microsatellite instability tumours, IL23R immunoreactivity correlated with Dukes' staging and lymph node metastases, whereas nuclear beta-catenin correlated with lymph node metastases only. CONCLUSION: NAV3 copy number changes are frequent in CRC and in adenomas, and upregulation of IL23R, following NAV3 silencing, strongly correlates with Dukes' staging and lymph node metastases. This suggests that NAV3 has a role in linking tissue inflammation to cancer development in the colon.

Integrated analysis of gene copy number, copy neutral LOH, and microRNA profiles in adult acute lymphoblastic leukemia.

We adopted an integrated analysis of gene copy number alterations (CNAs), copy number neutral loss of heterozygosity (CNN LOH), and microRNA (miRNA) profiling in 21 adult acute lymphoblastic leukemia (ALL) patients. This study revealed the most frequent CNAs to be at chromosomes 9p, 7, and 17 and recurrent CNN LOH at 5p, 9p, and Xq. As for the most differentially expressed miRNAs, they included 8 upregulated and 14 downregulated miRNAs, of which miR-148a at 7p15.2, miR-22 at 17p13.3, miR-223 at Xq12, as well as miR-101-2 at 9p24.1 exhibited recurrent CNAs or CNN LOH. miR-101-2 was recurrently downregulated, and although the related CNN LOH was detected only in BCR-ABL1 negative cases (2/14), deletions of miR-101-2 were observed solely in BCR-ABL1 positive cases (4/7). Finally, BCR-ABL1 positive cases, in contrast to negative ones, were characterized by slightly, but still significantly, higher expression levels of miR-29b.

19p13.3 aberrations are associated with dysmorphic features and deviant psychomotor development.

Here, we describe 2 patients with de novo genomic imbalances of 19p13.3. Using high-resolution microarray analysis, we detected a 1.25-Mb deletion in one patient and a 0.81- Mb duplication in another. The resulting phenotypes are quite different; one is a 2-year-old boy with macrocephaly and normal growth, while the other is a 9-year-old boy with microcephaly and growth retardation since birth. Both have dysmorphic features and psychomotor developmental delay. This report gives evidence of the effect of small aberrations of chromosome 19 and describes the phenotypes arising from a duplication and deletion of the same location at 19p13.3.

ROCK2 allelic variants are not associated with pre-eclampsia susceptibility in the Finnish population.

The rho-associated coiled-coil protein kinase 2 (ROCK2) gene has been suggested to associate with general hypertension and is therefore a plausible functional candidate gene for pre-eclampsia. ROCK2 maps to chromosome 2p25, which we have implicated previously in a linkage study of pre-eclampsia. We have re-sequenced exons and putative promoter region of ROCK2 in up to 30 pre-eclampsia patients and 22 controls and genotyped putative functional single-nucleotide polymorphisms (SNPs) as well as tagging SNPs from HapMap in a Finnish case-control data set-340 affected and 357 matched control individuals-for a genetic association study of ROCK2 in pre-eclampsia. Even though several new SNPs were discovered, we did not detect significant allelic or haplotypic association between ROCK2 and pre-eclampsia. We assessed ROCK2 expression in placentas by microarray analysis, but no significant expression differences were observed when comparing preeclamptic and normotensive pregnancies. We conclude that common genetic variation in ROCK2 is unlikely to make a major contribution to the risk of pre-eclampsia, but cannot exclude the possibility of having missed non-coding functional variants or rare coding variants.

Gene expression and copy number profiling suggests the importance of allelic imbalance in 19p in asbestos-associated lung cancer.

Asbestos is a pulmonary carcinogen known to give rise to DNA and chromosomal damage, but the exact carcinogenic mechanisms are still largely unknown. In this study, gene expression arrays were performed on lung tumor samples from 14 heavily asbestos-exposed and 14 non-exposed patients matched for other characteristics. Using a two-step statistical analysis, 47 genes were revealed that could differentiate the tumors of asbestos-exposed from those of non-exposed patients. To identify asbestos-associated regions with DNA copy number and expressional changes, the gene expression data were combined with comparative genomic hybridization microarray data. As a result, a combinatory profile of DNA copy number aberrations and expressional changes significantly associated with asbestos exposure was obtained. Asbestos-related areas were detected in 2p21-p16.3, 3p21.31, 5q35.2-q35.3, 16p13.3, 19p13.3-p13.1 and 22q12.3-q13.1. The most prominent of these, 19p13, was further characterized by microsatellite analysis in 62 patients for the differences in allelic imbalance (AI) between the two groups of lung tumors. 79% of the exposed and 45% of the non-exposed patients (P=0.008) were found to be carriers of AI in their lung tumors. In the exposed group, AI in 19p was prevalent regardless of the histological tumor type. In adenocarcinomas, AI in 19p appeared to occur independently of the asbestos exposure.

DNA copy number amplification profiling of human neoplasms.

DNA copy number amplifications activate oncogenes and are hallmarks of nearly all advanced tumors. Amplified genes represent attractive targets for therapy, diagnostics and prognostics. To investigate DNA amplifications in different neoplasms, we performed a bibliomics survey using 838 published chromosomal comparative genomic hybridization studies and collected amplification data at chromosome band resolution from more than 4500 cases. Amplification profiles were determined for 73 distinct neoplasms. Neoplasms were clustered according to the amplification profiles, and frequently amplified chromosomal loci (amplification hot spots) were identified using computational modeling. To investigate the site specificity and mechanisms of gene amplifications, colocalization of amplification hot spots, cancer genes, fragile sites, virus integration sites and gene size cohorts were tested in a statistical framework. Amplification-based clustering demonstrated that cancers with similar etiology, cell-of-origin or topographical location have a tendency to obtain convergent amplification profiles. The identified amplification hot spots were colocalized with the known fragile sites, cancer genes and virus integration sites, but global statistical significance could not be ascertained. Large genes were significantly overrepresented on the fragile sites and the reported amplification hot spots. These findings indicate that amplifications are selected in the cancer tissue environment according to the qualitative traits and localization of cancer genes.

High-resolution oligonucleotide array-CGH pinpoints genes involved in cryptic losses in chronic lymphocytic leukemia.

Although recurrent chromosomal alterations occur in chronic lymphocytic leukemia (CLL), relatively few affected tumor suppressors and oncogenes have been implicated. To improve genetic characterization of CLL, we performed high-resolution gene copy number analysis of 20 CLL patients using oligonucleotide array comparative genomic hybridization (aCGH). The most recurrent losses were observed in 13q and 11q with variable sizes. The 11q losses varied between 7.44 Mb and 41.72 Mb in size and targeted ATM among others. Lost regions in 13q were generally smaller, spanning from 0.79 Mb to 29.33 Mb. The minimal common region (158 kb) in 13q14.3, which was also homozygously deleted in some cases, harbored five genes: TRIM13, KCNRG, DLEU2, DLEU1, and FAM10A4. Additionally, two micro-RNA genes (MIRN15A and MIRN16-1) locate to the region. New cryptic losses were detected in 1q23.2-->q23.3, 3p21.31, 16pter-->p13.3, 17p13.3-->p13.2, 17q25.3-->qter, and 22q11.22. In conclusion, our oligonucleotide aCGH study revealed novel aberrations and provided detailed genomic profiles of the altered regions.

Oligonucleotide array comparative genomic hybridization refines the structure of 8p23.1, 17q12 and 20q13.2 amplifications in gastric carcinomas.

Oligonucleotide array comparative genomic hybridization (aCGH) was applied on fifteen gastric cancer (GCA) samples to reveal information of DNA copy number changes at an exon-level resolution. Twelve of the samples represented the intestinal (IGCA) and three the diffuse (DGCA) type of GCA. The samples had previously been assessed for genetic stability by microsatellite analysis and categorized into microsatellite phenotypes according to the type of alterations. As compared to our previous results obtained using cDNA platforms, the oligonucleotide platforms revealed more aberrations per sample (0-45 vs. 0-22). A total of 22 amplifications were detected by the oligonucleotide arrays. Ten of the amplicons had also been detected on the cDNA platform, but five of them spanned only one or a few cDNA clones, thus resembling apparent outliers. Two tumors showed five or more amplifications by oligonucleotide aCGH, suggesting the presence of an amplifier phenotype. The amplifications occurred irrespective of the microsatellite phenotypes. None of the DGCA tumors showed more than one aberration, whereas the IGCA tumors showed several aberrations. The increased resolution of the oligonucleotide arrays enabled the detection of amplicon boundaries at gene level, allowing, e.g., the determination of the 17q12 core amplicon and interstitial losses within the 8p23.1-->p22 and 20q13.2-->q13.1 amplifications. Previously no losses have been reported within amplified regions in GCA. In addition to novel amplified regions, the oligonucleotide array results describe novel targets for amplicons at 8p11 (SFRP1), 11p12 (LRRC4C), and 19q13.2 (CEACAM6).

Etiology of specific molecular alterations in human malignancies.

Cancer results from multiple genomic changes that affect DNA and its gene expression. The DNA sequences may be gained, lost or amplified, or translocated into different parts of the genome to form a fusion gene with oncogenic properties. The occurrence of specific chromosomal aberrations may be restricted to only one cancer type and it may be considered a primary carcinogenic event. Furthermore, the aberration profiles may be used to cluster tumors with similar origins. A variety of techniques exist for the detection of specific chromosomal and gene expression changes. However, the etiology of these molecular alterations remains unclear. Here we discuss the roles of Helicobacter pylori and asbestos burden as carcinogens that cause gastric cancer, mesothelioma and lung cancer.

Loss of TP53 in sarcomas with 17p12 to approximately p11 gain. A fine-resolution oligonucleotide array comparative genomic hybridization study.

The amplification or gain of the p-arm of chromosome 17 is common in sarcomas, suggesting its role in carcinogenesis. Here, we report the architectural structure and targets of 17p aberrations commonly shared by osteosarcoma (OS), leiomyosarcoma (LMS) and malignant fibrous histiocytoma (MFH) of soft tissue. Two low-grade and two high-grade soft tissue LMS, three OS, and two MFH samples were studied using fine-resolution oligonucleotide-based microarray comparative genomic hybridization. Eight of the nine samples showed a loss of 17pter-->p13, the locus of tumor suppressor TP53 preceding the amplified area 17p12-->p11.2. The size and detailed architecture of the amplified region of 17p differed between the studied sarcoma entities. OS and high-grade LMS showed similar complex patterns of discontinuous amplifications with regions of gain in between. MFH and low-grade LMS showed continuous regions of gains and amplifications. Precise boundaries of the lost or gained regions were determined, and in addition to the previously suggested targets of the region, ELAC and FLCN were amplified in all the sarcoma entities.

Microdeletions in 9p21.3 induce false negative results in CDKN2A FISH analysis of Ewing sarcoma.

Deletion of the CDKN2A locus at 9p21.3 has been reported to be a poor prognostic sign in the Ewing sarcoma family of tumours. In clinical applications CDKN2A deletion is primarily detected using fluorescent in situ hybridisation (FISH) with a commercial probe, size approximately 190 kb. Due to limitations in resolution, FISH analysis may fail to detect microdeletions smaller than 190 kb. In the present study, we performed 44K array comparative genomic hybridisation (CGH) on eleven Ewing sarcoma cell lines and 26 tissue samples in order to define the sizes of 9p21.3 deletions. Microarray CGH analysis revealed 9p21.3 deletions encompassing the CDKN2A locus in eight cell lines (73%) and in six tumours (23%). In four cases (two cell lines and two tissue samples) the deletion was less than 190 kb in size. In one cell line sample, we detected a microdeletion of approximately 58 kb in 9p21.3 harbouring the CDKN2A locus. We confirmed this result using 244K microarray CGH and TaqMan quantitative RT-PCR analysis and further performed FISH analysis on this cell line sample. Here, we show that CDKN2A FISH analysis can give false negative results in cases with small microdeletions. Our results suggest that new and more accurate FISH methods should be developed for detection of deletions in the CDKN2A locus.

Gene copy number analysis in malignant pleural mesothelioma using oligonucleotide array CGH.

Conventional cytogenetic analyses and comparative genomic hybridization have revealed a complex and even chaotic nature of chromosomal aberrations in pleural malignant mesothelioma (MM). We set out to describe the complex gene copy number changes and screen for novel genetic aberrations using a high-density oligonucleotide microarray platform for comparative genomic hybridization (aCGH) of a series of 26 well-characterized MM tumor samples. The number of copy number changes varied from zero to 40 per sample. Gene copy number losses predominated over gains, and the most frequent region of loss was 9p21.3 (17/26 cases), the locus of CDKN2A and CDKN2B, both known to be commonly lost in MM. The most recurrent minimal regions of losses were 1p31.1--> p13.2, 3p22.1-->p14.2, 6q22.1, 9p21.3, 13cen-->q14.12, 14q22.1-->qter, and 22qcen-->q12.3. Previously unreported gains included 9p13.3, 7p22.3-->p22.2, 12q13.3, and 17q21.32-->qter. The results suggest that gene copy number losses are a major mechanism of MM carcinogenesis and reveal a recurrent pattern of copy number changes in MM.

Genetic changes in sporadic keratocystic odontogenic tumors (odontogenic keratocysts).

Little is known about the genetic background of keratocystic odontogenic tumors (KCOT, odontogenic keratocysts). Our aim was to characterize genomic aberrations in sporadic KCOT using cDNA-expression arrays and array-comparative genomic hybridization. For cDNA-expression arrays, 10 KCOT specimens and 20 fetal tooth germs were studied. Quantitative real-time reverse-transcription/polymerase chain-reaction and immunohistochemical studies were also undertaken. Several genes were over-expressed in 12q13, including cytokeratin 6B (KRT6B) ( approximately 10-fold), epidermal growth factor receptor ERBB3 (approximately 4.7-fold), and glioma-associated oncogene homologue 1 (GLI1) (approximately 5- to 12-fold). One amplicon (approximately 0.7 Mega base pairs [Mbp]), covering several genes involved in the regulation of cell growth, was found in 12q13.2. Deletions were found in 3q13.1, 5p14.3, and 7q31.3, including the cell-adhesion-related gene cadherin 18 (CDH18) and leukocyte cell adhesion molecule (ALCAM, MEMD). Over-expressed and amplified genes in 12q13, also reported in several other tumors and cell lines, may contribute to the persistent growth characteristics of KCOT.

A novel endothelial cell surface receptor tyrosine kinase with extracellular epidermal growth factor homology domains.

Endothelial cell surfaces play key roles in several important physiological and pathological processes such as blood clotting, angiogenic responses, and inflammation. Here we describe the cloning and characterization of tie, a novel type of human endothelial cell surface receptor tyrosine kinase. The extracellular domain of the predicted tie protein product has an exceptional multidomain structure consisting of a cluster of three epidermal growth factor homology motifs embedded between two immunoglobulinlike loops, which are followed by three fibronectin type III repeats next to the transmembrane region. Additionally, a cDNA form lacking the first of the three epidermal growth factor homology domains was isolated, suggesting that alternative splicing creates different tie-type receptors. Cells transfected with tie cDNA expression vector produce glycosylated polypeptides of 117 kDa which are reactive to antisera raised against the tie carboxy terminus. The tie gene was located in chromosomal region 1p33 to 1p34. Expression of the tie gene appeared to be restricted in some cell lines; large amounts of tie mRNA were detected in endothelial cell lines and in some myeloid leukemia cell lines with erythroid and megakaryoblastoid characteristics. In addition, mRNA in situ studies further indicated the endothelial expression of the tie gene. The tie receptor tyrosine kinase may have evolved for multiple protein-protein interactions, possibly including cell adhesion to the vascular endothelium.

Gene copy number changes in dermatofibrosarcoma protuberans - a fine-resolution study using array comparative genomic hybridization.

Dermatofibrosarcoma protuberans (DFSP) is a rare, slow-growing, low-grade dermal tumor. Cytogenetic and FISH studies have revealed that the chromosomal rearrangements characteristic of DFSP tumors involve both translocations and the formation of a supernumerary ring derived from chromosomes 17 and 22. The t(17;22) (q22;q13.1) translocation generates a gene fusion between COL1A1 and PDGFB, which serves as a diagnostic marker of DFSP. In the present study we performed array-CGH (aCGH) analysis on ten DFSP tumors. The COL1A1 region at 17q was gained in 71% (5/7) of the samples and the PDGFB region at 22q was gained in 43% (3/7) of the individual samples. In addition to the 17q and 22q gains, altogether 17 minimal common regions of gain and one region of loss were detected.

Induction of major chromosome aberrations in Chinese hamster ovary cells by alpha-difluoromethylornithine.

DL-alpha-Difluoromethylornithine (DFMO) is a specific irreversible inhibitor of ornithine decarboxylase (EC 4.1.1.17) and has antitumor effects. In this paper, we show that DFMO inhibits the growth of and causes severe chromosomal damage in Chinese hamster ovary cell strain A7 which grows without serum but has deficient arginase activity and therefore requires ornithine or polyamines for continuous replication. In ornithine-containing medium, the A7 cells had very few chromosome aberrations, but incubation of these cells with 0.5 mM DFMO for 7 days induced chromosome aberrations in 12 to 46% of the mitoses. Depletion of polyamines by omitting ornithine from the medium also caused chromosome aberrations. The chromosomal damage found after DFMO treatment alone and ornithine deprivation alone were of similar nature. In addition to chromosome breaks, there were chromosome fragmentation and structurally changed chromosomes including rings, chromatid exchange configurations, and chromosome elongations. A phenomenon resembling premature chromosome condensation was also seen. Double-minute chromosomes were visible in some mitoses, and the chromosome elongations sometimes gave an impression of homogeneously staining regions.

Distinct chromosomal imbalances in uterine serous and endometrioid carcinomas.

Endometrial carcinoma shows various histological types that differ in their clinical presentation and prognosis. Comparative genomic hybridization was used to detect gains and losses of DNA sequences along all chromosome arms in 24 uterine serous and 24 uterine endometrioid carcinomas. In serous carcinomas, extensive genetic aberrations were detected in 17 of the 24 specimens, with a mean of 5.7 changes per tumor. The most frequent gains occurred at 3q (50%), 8q (33%), 5p (29%), 6p (29%), and 1q (29%), and the most common losses were located at 4q (17%), 15q (17%), and 18q (17%). Tumors exhibiting DNA copy number changes were associated with shorter overall survival. In endometrioid carcinomas, genetic aberrations were less frequent and simpler than in serous carcinomas. DNA sequence copy number changes were observed in 12 of the 24 cases, with a mean of 1.5 changes per tumor. The most frequent aberrations were gains at 1q (29%), 2q (13%), and 8q (13%). Losses were rarely observed. The diverging pattern of genetic changes observed in uterine serous and endometrioid carcinomas suggests different pathways of carcinogenesis in these tumor types.