Doug Horsman

Circos: An information aesthetic for comparative genomics

We created a visualization tool called Circos to facilitate the identification and analysis of similarities and differences arising from comparisons of genomes. Our tool is effective in displaying variation in genome structure and, generally, any other kind of positional relationships between genomic intervals. Such data are routinely produced by sequence alignments, hybridization arrays, genome mapping, and genotyping studies. Circos uses a circular ideogram layout to facilitate the display of relationships between pairs of positions by the use of ribbons, which encode the position, size, and orientation of related genomic elements. Circos is capable of displaying data as scatter, line, and histogram plots, heat maps, tiles, connectors, and text. Bitmap or vector images can be created from GFF-style data inputs and hierarchical configuration files, which can be easily generated by automated tools, making Circos suitable for rapid deployment in data analysis and reporting pipelines.

Somatic mutations altering EZH2 (Tyr641) in follicular and diffuse large B-cell lymphomas of germinal-center origin

Follicular lymphoma (FL) and the GCB subtype of diffuse large B-cell lymphoma (DLBCL) derive from germinal center B cells. Targeted resequencing studies have revealed mutations in various genes encoding proteins in the NF-κB pathway that contribute to the activated B-cell (ABC) DLBCL subtype, but thus far few GCB-specific mutations have been identified. Here we report recurrent somatic mutations affecting the polycomb-group oncogene EZH2, which encodes a histone methyltransferase responsible for trimethylating Lys27 of histone H3 (H3K27). After the recent discovery of mutations in KDM6A (UTX), which encodes the histone H3K27me3 demethylase UTX, in several cancer types, EZH2 is the second histone methyltransferase gene found to be mutated in cancer. These mutations, which result in the replacement of a single tyrosine in the SET domain of the EZH2 protein (Tyr641), occur in 21.7% of GCB DLBCLs and 7.2% of FLs and are absent from ABC DLBCLs. Our data are consistent with the notion that EZH2 proteins with mutant Tyr641 have reduced enzymatic activity in vitro.

The translocation t(8;16)(p11;p13) of acute myeloid leukaemia fuses a putative acetyltransferase to the CREB-binding protein

The recurrent translocation t(8;16)(p11 ;p13) is a cytogenetic hallmark for the M4/M5 subtype of acute myeloid leukaemia. Here we identify the breakpoint-associated genes. Positional cloning on chromosome 16 implicates the CREB-binding protein (CBP), a transcriptional adaptor/coactivator protein. At the chromosome 8 breakpoint we identify a novel gene, MOZ, which encodes a 2,004-amino-acid protein characterized by two C4HC3 zinc fingers and a single C2HC zinc finger in conjunction with a putative acetyltransferase signature. In-frame MOZ–CBP fusion transcripts combine the MOZ finger motifs and putative acetyltransferase domain with a largely intact CBP. We suggest that MOZ may represent a chromatin-associated acetyltransferase, and raise the possibility that a dominant MOZ–CBP fusion protein could mediate leukaemogenesis via aberrant chromatin acetylation.

Expression of the ETV6-NTRK3 gene fusion as a primary event in human secretory breast carcinoma

We report that human secretory breast carcinoma (SBC), a rare subtype of infiltrating ductal carcinoma, expresses the ETV6-NTRK3 gene fusion previously cloned in pediatric mesenchymal cancers. This gene fusion encodes a chimeric tyrosine kinase with potent transforming activity in fibroblasts. ETV6-NTRK3 expression was confirmed in 12 (92%) of 13 SBC cases, but not in other ductal carcinomas. Retroviral transfer of ETV6-NTRK3 (EN) into murine mammary epithelial cells resulted in transformed cells that readily formed tumors in nude mice. Phenotypically, tumors produced glands and expressed epithelial antigens, confirming that EN transformation is compatible with epithelial differentiation. This represents a recurrent chromosomal rearrangement and expression of a dominantly acting oncogene as a primary event in human breast carcinoma.

Ovarian carcinomas with genetic and epigenetic BRCA1 loss have distinct molecular abnormalities

BackgroundSubclassification of ovarian carcinomas can be used to guide treatment and determine prognosis. Germline and somatic mutations, loss of heterozygosity (LOH), and epigenetic events such as promoter hypermethylation can lead to decreased expression of BRCA1/2 in ovarian cancers. The mechanism of BRCA1/2 loss is a potential method of subclassifying high grade serous carcinomas.MethodsA consecutive series of 49 ovarian cancers was assessed for mutations status of BRCA1 and BRCA2, LOH at the BRCA1 and BRCA2 loci, methylation of the BRCA1 promoter, BRCA1, BRCA2, PTEN, and PIK3CA transcript levels, PIK3CA gene copy number, and BRCA1, p21, p53, and WT-1 immunohistochemistry.ResultsEighteen (37%) of the ovarian carcinomas had germline or somatic BRCA1 mutations, or epigenetic loss of BRCA1. All of these tumours were high-grade serous or undifferentiated type. None of the endometrioid (n = 5), clear cell (n = 4), or low grade serous (n = 2) carcinomas showed loss of BRCA1, whereas 47% of the 38 high-grade serous or undifferentiated carcinomas had loss of BRCA1. It was possible to distinguish high grade serous carcinomas with BRCA1 mutations from those with epigenetic BRCA1 loss: tumours with BRCA1 mutations typically had decreased PTEN mRNA levels while those with epigenetic loss of BRCA1 had copy number gain of PIK3CA. Overexpression of p53 with loss of p21 expression occurred significantly more frequently in high grade serous carcinomas with epigenetic loss of BRCA1, compared to high grade serous tumors without loss of BRCA1.ConclusionHigh grade serous carcinomas can be subclassified into three groups: BRCA1 loss (genetic), BRCA1 loss (epigenetic), and no BRCA1 loss. Tumors in these groups show distinct molecular alterations involving the PI3K/AKT and p53 pathways.

Small Noncleaved, Non-Burkitt's (Burkitt-Like) Lymphoma: Cytogenetics Predict Outcome and Reflect Clinical Presentation

PURPOSE To correlate cytogenetic abnormalities with clinical presentation and outcome in Burkitt-like, small noncleaved non-Burkitts lymphoma (SNC-NB). PATIENTS AND METHODS Thirty-nine patients with SNC-NB lymphoma and a clonal karyotype were evaluated between January 1989 and January 1996. All were from British Columbia, Canada, underwent uniform clinical staging, and were treated on investigational protocols by a small group of clinicians. RESULTS Three groups of patients were identified by clonal karyotype on cytogenetic analysis: (1) those with a c-myc translocation (n = 11); (2) those with dual translocation of c-myc and bcl-2 (n = 13); and (3) those with other cytogenetic abnormalities (n = 15). The c-myc group was younger, presented with earlier stage de nova disease, and had a better clinical prognostic factor profile. The dual-translocation and other groups were older and presented in advanced stage with poorer prognostic features, and a larger proportion of the dual-translocation group patients had transformed from previously diagnosed follicular lymphoma. The median overall survival (OS) time for all patients was 5 months. The median OS time for the dual-translocation group was only 2.5 months, as compared with 7 months and 8 months for the c-myc and other group, respectively (P < .001). There were no survivors beyond 7 months among the dual-translocation group, as opposed to 32% and 25% 2-year OS rates in the c-myc and other group. CONCLUSION SNC-NB lymphoma is a clinically and cytogenetically heterogenous disease. Dual translocation of c-myc and bcl-2 is characterized by a rapid clinical course and extremely poor outcome. This latter entity may represent the most clinically aggressive lymphoma thus far characterized and warrants intensive investigational treatment where feasible.

Genomic profiling reveals different genetic aberrations in systemic ALK-positive and ALK-negative anaplastic large cell lymphomas.

Anaplastic large cell lymphoma (ALCL) is a T/null‐cell neoplasm characterized by chromosomal translocations involving the anaplastic lymphoma kinase (ALK) gene (ALK). Tumours with similar morphology and phenotype but negative for ALK have been also recognized. The secondary chromosomal imbalances of these lymphomas are not well known. We have examined 74 ALCL, 43 ALK‐positive and 31 ALK‐negative, cases by comparative genomic hybridization (CGH), and locus‐specific alterations for TP53 and ATM were examined by fluorescence in situ hybridization and real‐time quantitative polymerase chain reaction. Chromosomal imbalances were detected in 25 (58%) ALK‐positive and 20 (65%) ALK‐negative ALCL. ALK‐positive ALCL with NPM‐ALK or other ALK variant translocations showed a similar profile of secondary genetic alterations. Gains of 17p and 17q24‐qter and losses of 4q13‐q21, and 11q14 were associated with ALK‐positive cases (P = 0·05), whereas gains of 1q and 6p21 were more frequent in ALK‐negative tumours (P = 0·03). Gains of chromosome 7 and 6q and 13q losses were seen in both types of tumours. ALCL‐negative tumours had a significantly worse prognosis than ALK‐positive. However no specific chromosomal alterations were associated with survival. In conclusion, ALK‐positive and negative ALCL have different secondary genomic aberrations, suggesting they correspond to different genetic entities.

A fluorescence in situ hybridization study of ETV6-NTRK3 fusion gene in secretory breast carcinoma

The translocation t(12;15)(p13;q25), in which the ETV6 gene from chromosome 12 is rearranged with the NTRK3 gene from chromosome 15, has recently been identified in secretory breast carcinoma (SBC). This fusion gene was initially described in congenital fibrosarcoma and congenital mesoblastic nephroma. The biological consequence of this translocation is the expression of a chimeric protein tyrosine kinase with potent transforming activity. To assess the frequency of t(12;15)(p13;q25) in breast cancer, we developed complementary probe sets (fusion and split‐apart probes) for the detection of this translocation by fluorescence in situ hybridization (FISH) in paraffin‐embedded, formalin‐fixed tissue sections. We tested four histologically confirmed cases of SBC for the presence of the ETV6‐NTRK3 gene fusion and then applied the FISH assay to tissue microarrays (TMAs) in order to screen 481 cases of formalin‐fixed, paraffin‐embedded invasive breast carcinomas of various histologic subtypes. Three of the four cases of SBC revealed fusion signals. Of the 481 cases in the TMAs, 202 gave signals of sufficient quality for screening by FISH, and only one case showed fusion signals in most or all of the tumor cells. On review of the histology of this case, SBC was confirmed. On the other hand, none of the fusion‐negative breast cancers revealed SBC histology. In all cases, the results from the fusion and split‐apart FISH assays for the ETV6‐NTRK3 fusion genes were concordant. Our data suggest that the ETV6‐NTRK3 fusion gene is a specific genetic alteration in SBC.

Loss of heterozygosity for loci on chromosome arms 1p and 10q in oligodendroglial tumors: relationship to outcome and chemosensitivity

Oligodendroglial tumors frequently have deletions of chromosomal loci on 1p and 19q. Loss of heterozygosity (LOH) of chromosome 10 may be a negative prognostic factor. We reviewed 23 patients with oligodendroglial tumors, to evaluate the frequency of 1p and 10q LOH and correlate with clinical outcome. Three loci (D1S402, D1S1172, MCT118) on 1p and 2 loci (D10S520 and D10S521) on 10q were analyzed for LOH using PCR techniques. Sixteen oligodendrogliomas (6 low grade and 10 anaplastic) and 7 oligoastrocytomas (1 low grade and 6 anaplastic) were studied. Overall 14/22 (64%) showed 1p LOH and 7/23 (30%) showed 10q LOH. Of 7 patients with some response to chemotherapy, all showed 1p LOH and none had 10q LOH. Of 5 patients with stable or progressive disease, 1 had 1p LOH and 2 showed 10q LOH. The presence of 1p LOH was significantly associated with response to chemotherapy (p = 0.02). Median progression free survival (PFS) was 31 months for 1p intact patients and 118 months for the 1p LOH group (p = 0.014). Median PFS for 10q LOH patients was 31 and 118 months for patients with intact chromosome 10 (p = 0.016). 1p LOH is a predictor of response to chemotherapy and a good prognostic factor. 10q LOH is less common in oligodendroglial tumors but predicts for worse outcome. Molecular genotyping of oligodendroglial tumors is recommended as part of the standard diagnostic workup.

Involvement of the X chromosome in non-Hodgkin lymphoma.

Gain of an X chromosome is observed as a secondary, acquired karyotypic alteration in a significant proportion of malignant lymphomas. To determine the potential involvement of X‐linked genes in neoplastic development, we have analyzed the inactivation status of the supernumerary X chromosome in lymphomas in both male and female patients. In males, neither methylation of FMR1 nor expression of XIST was detected, demonstrating that the duplicated chromosome was not subject to inactivation. In females, both expressed polymorphisms and polymorphisms associated with methylation differences between the active and inactive X chromosome were analyzed to determine whether the duplicated chromosome was active or inactive. To facilitate this analysis, allele‐specific PCR primers were designed for detection of previously described polymorphisms in the IDSX and G6PD genes. The female lymphomas were shown to be clonal in origin, and duplication of either the active (5 cases) or inactive (4 cases) X chromosome was observed. Correlations between clinical status and the inactivation status of the X chromosome involved in the duplication were not observed in our relatively small sample, although 4/4 informative cases with a t(14;18) showed duplication of the active X chromosome. In the course of these studies, we detected hypermethylation of the androgen receptor (AR) locus in an extremely high proportion of both male (7/9) and female (9/10) samples. These results are discussed with respect to whether sex chromosome aneuploidies in tumors are involved in, or simply the result of, the neoplastic process. Genes Chromosomes Cancer 28:246–257, 2000.