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Khalil A Choucair,
Karl-Philippe Guérard,
Joshua Ejdelman,
Simone Chevalier, Maisa Yoshimoto,
Eleonora Scarlata,
Ladan Fazli,
Kanishka Sircar,
Jeremy A Squire,
Fadi Brimo,
Isabela W Cunha,
Armen Aprikian,
Martin Gleave,
Jacques Lapointe
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ABSTRACT: Prostate cancer (PCa) is a leading cause of cancer death, and distinguishing aggressive from indolent tumors is a major challenge. Identification and characterization of genomic alterations associated with advanced disease can provide new markers of progression and better therapeutic approaches.
We performed fluorescence in situ hybridization to detect the copy number gain of chromosome 16p13.3 in 75 PCa samples including 10 lymph node (LN) metastases and their matched primary tumors, 9 samples of castration-resistant prostate cancer (CRPC), and 46 additional primary PCa specimens with clinicopathologic parameters.
We detected the gain in 5 of 10 LN metastases and 3 of 5 matched primary tumors, 3 of 9 CRPC samples, and 9 of 46 (20%) primary tumors where the 16p13.3 alteration was associated with high Gleason score and elevated preoperative prostate-specific antigen levels. The level of 16p13.3 gain was higher in LN metastasis and CRPC specimens compared to primary PCa. Chromosome mapping revealed the gain spans PDPK1 encoding the 3-phosphoinositide-dependent protein kinase-1 (PDK1). Knockdown of PDK1 in three PCa cell lines reduced migration without affecting growth and re-expressing PDK1 rescued motility.
Our findings support a prognostic value of the 16p13.3 gain and a role of PDK1 in PCa progression through migration.
Translational oncology 12/2012; 5(6):453-60. · 3.40 Impact Factor
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Khalil A Choucair,
Karl-Philippe Guérard,
Joshua Ejdelman,
Simone Chevalier, Maisa Yoshimoto,
Eleonora Scarlata,
Ladan Fazli,
Kanishka Sircar,
Jeremy A Squire,
Fadi Brimo,
Isabela W Cunha,
Armen Aprikian,
Martin Gleave and Jacques Lapointe
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ABSTRACT: Background: Prostate cancer (PCa) is a leading cause of cancer death and distinguishing aggressive from indolent tumors is a major challenge. Identification and characterization of genomic alterations associated with advanced disease can provide new markers of progression and better therapeutic approaches. Methods: We performed Fluorescence In Situ Hybridization (FISH) to detect the copy number gain of chromosome 16p13.3 in 75 PCa samples including 10 lymph node (LN) metastases and their matched primary tumors, 9 samples of castration-resistant prostate cancer (CRPC), and 46 additional primary PCa specimens with clinicopathological parameters. Results: We detected the gain in 5/10 LN metastases and 3/5 matched primary tumors, 3/9 CRPC samples, and 9/46 (20 %) primary tumors where the 16p13.3 alteration was associated with high Gleason score and elevated preoperative prostate specific antigen (PSA) levels. The level of 16p13.3 gain was higher in LN metastasis and CRPC specimens compared to primary PCa. Chromosome mapping revealed the gain spans PDPK1 encoding the 3-Phosphoinositide-dependent protein kinase-1 (PDK1). Knock down of PDK1 in three PCa cell lines reduced migration without affecting growth and re-expressing PDK1 rescued motility. Conclusion: Our findings support a prognostic value of the 16p13.3 gain and a role of PDK1 in PCa progression through migration.
Translational oncology 12/2012; 5(6):454-460. · 3.40 Impact Factor
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Naoki Yanagawa,
Charles Leduc,
Derek Kohler,
Mauro A Saieg,
Thomas John,
Jenna Sykes, Maisa Yoshimoto,
Melania Pintilie,
Jeremy Squire,
Frances A Shepherd,
Ming-Sound Tsao
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ABSTRACT: INTRODUCTION:: Phosphatase and tensin homolog (PTEN) has been established as a tumor suppressor gene with an important role in regulating the phosphatidylinositol-3-kinase/AKT antiapoptotic and survival pathway. The prognostic role of PTEN in non-small-cell lung carcinoma has not been evaluated completely in the context of other molecular information. METHODS:: Tissue microarrays containing 152 resected non-small-cell lung cancer specimens were used to investigate PTEN and p53 by immunohistochemistry and PTEN by fluorescence in situ hybridization. DNA was isolated and subjected to mutational profiling using the Sequenom Oncocarta v1.0 panel. Clinicopathological features were correlated with PTEN expression, gene copy number, and mutation status. RESULTS:: PTEN staining was absent in 63 (41.4%) of the cases. Significantly more squamous cell carcinomas compared with adenocarcinomas demonstrated loss of (negative) PTEN staining (26 of 44 [59%] versus 32 of 94 [34%]; p = 0.009). PTEN gene copy deletion was present in only seven of 124 evaluable cases (5.6%); all deleted cases were immunohistochemistry negative. In univariate and multivariate (MV) analyses adjusted for sex, age, histology, and stage, loss of PTEN protein expression was associated with significantly shorter disease-free survival (MV hazard ratio: 1.78, 95% confidence interval: 1.01-3.14, p = 0.048), whereas no significant associations were seen with p53 or KRAS and epidermal growth factor receptor (EGFR) mutation status. Importantly, the prognostic value of absent PTEN staining was limited to adenocarcinomas, with MV disease-free survival hazard ratio of 2.68 (95% confidence interval: 1.35-5.32, p = 0.005), whereas no such association was seen in squamous cell carcinomas. CONCLUSION:: Absence of PTEN protein expression is an independent prognostic marker in early-stage resected lung adenocarcinoma.
Journal of thoracic oncology: official publication of the International Association for the Study of Lung Cancer 10/2012; 7(10):1513-1521. · 4.55 Impact Factor
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ABSTRACT: Prostatic adenocarcinoma is an epithelial malignancy characterized by marked histological heterogeneity. It most often has a multifocal distribution within the gland, and different Gleason grades may be present within different foci. Data from our group and others have shown that the genomic deletion of the phosphatase and tensin homolog deleted on chromosome 10 (PTEN) tumor suppressor gene and the disruption of the ETS gene family have a central role in prostate cancer and are likely to be associated with Gleason grade. In this study, prostate cancer samples were systematically analyzed to determine whether there was concordance between PTEN losses and TMPRSS2-ERG fusion rearrangements, within or between foci in multifocal disease, using well-annotated tissue microarrays (TMAs) consisting of 724 cores derived from 142 radical prostatectomy specimens. Three-color fluorescence in situ hybridization analysis of both the PTEN deletion and the TMPRSS2-ERG fusion was used to precisely map genetic heterogeneity, both within and between tumor foci represented on the TMA. PTEN deletion was observed in 56 of 134 (42%) patients (hemizygous=42 and homozygous=14). TMPRSS2-ERG fusion was observed in 63 of 139 (45%) patients. When analyzed by Gleason pattern for a given TMA core, PTEN deletions were significantly associated with Gleason grades 4 or 5 over grade 3 (P<0.001). Although TMPRSS2-ERG fusions showed a strong relationship with PTEN deletions (P=0.007), TMPRSS2-ERG fusions did not show correlation with Gleason grade. The pattern of genetic heterogeneity of PTEN deletion was more diverse than that observed for TMPRSS2-ERG fusions in multifocal disease. However, the marked interfocal discordance for both TMPRSS2-ERG fusions and PTEN deletions was consistent with the concept that multiple foci of prostate cancer arise independently within the same prostate, and that individual tumor foci can have distinct patterns of genetic rearrangements.Modern Pathology advance online publication, 28 September 2012; doi:10.1038/modpathol.2012.162.
Modern Pathology 09/2012; · 4.79 Impact Factor
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ABSTRACT: Recently, ETS-related gene (ERG) gene rearrangements, phosphatase tensin homologue (PTEN) deletions and serine protease inhibitor Kazal type 1 (SPINK1) overexpression were investigated as potential markers for molecularly subtyping prostate cancer (PCA). However, their incidence and co-association in castration-resistant PCA (CRPC) has not been characterized fully.
A cohort of 59 CRPC patients was investigated for ERG rearrangements, PTEN deletions and androgen receptor (AR) amplification by fluorescence in-situ hybridization. SPINK1 overexpression was assessed by immunohistochemistry. ERG rearrangements and PTEN deletions were detected in 22 of 53 (41.5%) and 35 of 55 (63.6%) of cases, with 15 of 22 (68.1%) of ERG rearrangements occurring through deletions. SPINK1 overexpression occurred in three of 51 (5.8%) of cases exclusively in non-ERG rearranged and AR amplification was detected in 12 of 49 (24.4%) of cases. Only PTEN deletions showed intrafocal heterogeneity occurring in nine of 35 (25.7%) of cases. PTEN deletions were significantly associated with each of ERG rearrangements occurring by deletions only (P = 0.001), AR amplification (P = 0.002) and SPINK1 overexpression (P = 0.002). None of the SPINK1 overexpressing tumours showed AR amplification (P = 0.005) and all occurred in PTEN deleted foci (P = 0.002).
Te study supports the heterogeneous nature of CRPC and confirms a significant association between PTEN, ERG, AR and SPINK1. Characterizing combined markers will aid in defining PCA subgroups relevant to prognosis contributing to the design of improved therapeutic approaches for CRPC.
Histopathology 03/2012; 60(4):645-52. · 3.08 Impact Factor
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Gaetano Zafarana,
Adrian S Ishkanian,
Chad A Malloff,
Jennifer A Locke,
Jenna Sykes,
John Thoms,
Wan L Lam,
Jeremy A Squire, Maisa Yoshimoto,
Varune Rohan Ramnarine,
Alice Meng,
Omar Ahmed,
Igor Jurisca,
Michael Milosevic,
Melania Pintilie,
Theo van der Kwast,
Robert G Bristow
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ABSTRACT: Despite the use of PSA, Gleason score, and T-category as prognosticators in intermediate-risk prostate cancer, 20-40% of patients will fail local therapy. In order to optimize treatment approaches for intermediate-risk patients, additional genetic prognosticators are needed. Previous reports using array comparative genomic hybridization (aCGH) in radical prostatectomy cohorts suggested a combination of allelic loss of the PTEN gene on 10q and allelic gain of the c-MYC gene on 8q were associated with metastatic disease. We tested whether copy number alterations (CNAs) in PTEN (allelic loss) and c-MYC (allelic gain) were associated with biochemical relapse following modern-era, image-guided radiotherapy (mean dose 76.4 Gy). We used aCGH analyses validated by fluorescence in-situ hybridization (FISH) of DNA was derived from frozen, pre-treatment biopsies in 126 intermediate-risk prostate cancer patients. Patients whose tumors had CNAs in both PTEN and c-MYC had significantly increased genetic instability (percent genome alteration; PGA) compared to tumors with normal PTEN and c-MYC status (p < 0.0001). We demonstrate that c-MYC gain alone, or combined c-MYC gain and PTEN loss, were increasingly prognostic for relapse on multivariable analyses (hazard ratios (HR) of 2.58/p = 0.005 and 3.21/p = 0.0004; respectively). Triaging patients by the use of CNAs within pre-treatment biopsies may allow for better use of systemic therapies to target sub-clinical metastases or locally recurrent disease and improve clinical outcomes.
Cancer 01/2012; 118(16):4053-62. · 4.77 Impact Factor
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ABSTRACT: Deletion of PTEN at 10q23.3 occurs in ∼40% of human prostate cancers and is associated with aggressive metastatic potential, poor prognosis, and androgen-independence. This high frequency of recurrent PTEN deletions in prostate cancer suggests there may be unusual genomic features close to this locus that facilitate DNA alteration at 10q23.3. To explore possible mechanisms for deletions in the PTEN region, a meta-analysis of 311 published human genome array datasets was conducted and determined that the minimal prostate cancer-associated deletion at 10q23.3 corresponds to ∼2.06 MB region flanked by BMPR1A and FAS. On a separate cohort comprising an additional 330 tumors, four-color fluorescence in situ hybridization analysis using probes for BMPR1A, FAS, cen(10), and PTEN showed that 132 of 330 (40%) tumors had PTEN loss, 50 (15%) of which were homozygous losses (comprising in total 100 deletion events). Breakpoints between PTEN and BMPR1A or FAS were subsequently mapped in 100 homozygous and 82 hemizygous PTEN losses, revealing that 125/182 PTEN microdeletions occurred within the 940 kB interval between BMPR1A and PTEN. Furthermore, this breakpoint interval coincides with a repeat-rich region of 414 kB containing the SD17 and SD18 segmental duplications, which contain at least 13 homologous inverted repeat sequences. Together, these data suggest that a strong selective growth advantage for loss of PTEN and upregulation of PI3K/AKT, combined with the close proximity of PTEN to a large unstable segment of repeated DNA comprising SD17 and SD18, can lead to recurrent microdeletions of the PTEN gene in prostate cancer. © 2011 Wiley Periodicals, Inc.
Genes Chromosomes and Cancer 11/2011; 51(2):149-60. · 3.31 Impact Factor
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ABSTRACT: To assess the incidence of ERG rearrangements and PTEN deletions in a group of prognostically favorable PCA tumors of the transition zone (TZ). We interrogated 54 unsuspected PCA tumors using fluorescence in-situ hybridization for ERG rearrangements and PTEN deletions. ERG rearrangements were detected in 6/47 (12.7%) cases with 4/6 (66%) occurring by deletion. PTEN deletions were detected in 9/47 (19.1%) cases with only 3/47 (6.4%) having both PTEN losses and ERG rearrangements (p = 0.07). Only ERG rearrangements were associated with higher tumor volume > 5% (p = 0.04); PTEN deletions showed similar trends (p = 0.06). None of the markers showed association with Gleason score. In conclusion, although TZ and peripheral zone tumors share similar molecular etiologies, they exhibit differences in the rates of ERG and PTEN aberrations. The differences of ERG and /or PTEN genetic aberrations in TZ tumors may point toward a subset of tumors with adverse behavior. Additional studies implementing ERG and PTEN tissue-based FISH assays in tumors of the TZ are warranted to substantiate the potential clinical value of these biomarkers in the management of men with incidental PCA.
Cancer biology & therapy 03/2011; 11(6):562-6. · 2.64 Impact Factor
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ABSTRACT: Osteosarcoma is an aggressive sarcoma of the bone characterized by a high level of genetic instability and recurrent DNA deletions and amplifications. This study assesses whether deregulation of microRNA (miRNA) expression is a post-transcriptional mechanism leading to gene expression changes in osteosarcoma. miRNA expression profiling was performed for 723 human miRNAs in 7 osteosarcoma tumors, and 38 miRNAs differentially expressed ≥10-fold (28 under- and 10 overexpressed) were identified. In most cases, observed changes in miRNA expression were DNA copy number-correlated. However, various mechanisms of alteration, including positional and/or epigenetic modifications, may have contributed to the expression change of 23 closely linked miRNAs in cytoband 14q32. To develop a comprehensive molecular genetic map of osteosarcoma, the miRNA profiles were integrated with previously published array comparative genomic hybridization DNA imbalance and mRNA gene expression profiles from a set of partially overlapping osteosarcoma tumor samples. Many of the predicted gene targets of differentially expressed miRNA are involved in intracellular signaling pathways important in osteosarcoma, including Notch, RAS/p21, MAPK, Wnt, and the Jun/FOS pathways. By integrating data on copy number variation with mRNA and miRNA expression profiles, we identified osteosarcoma-associated gene expression changes that are DNA copy number-correlated, DNA copy number-independent, mRNA-driven, and/or modulated by miRNA expression. These data collectively suggest that miRNAs provide a novel post-transcriptional mechanism for fine-tuning the expression of specific genes and pathways relevant to osteosarcoma. Thus, the miRNA identified in this manner may provide a starting point for experimentally modulating therapeutically relevant pathways in this tumor.
Cancer Genetics 03/2011; 204(3):138-46.
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ABSTRACT: To investigate the interaction between, and significance of, ERG gene rearrangements and PTEN genomic deletions in relation to the development and progression of prostate cancer (PCA).
We interrogated an initial cohort of 220 men with localized PCA using fluorescence in situ hybridization for ERG rearrangements and PTEN genomic deletions.
The incidences of ERG rearrangements and PTEN deletions in PCA were significantly higher than in high-grade prostatic intra-epithelial neoplasia (HGPIN) and benign prostate tissue (P < 0.001). ERG rearrangements and PTEN deletions were detected in 41.9 and 42.6% of patients' tumours, respectively. ERG rearrangements were never detected in benign prostate tissue, while PTEN aberrations were present at a basal level of 4.6%. PTEN hemizygous deletions showed higher frequency than homozygous deletions within each diagnostic category from benign prostate tissue to HGPIN and PCA (P ≤ 0.001). Furthermore, in 29 patients where all three tissues were available, PTEN genomic aberrations in PCA were significantly different from those in benign tissue (P = 0.005) and HGPIN (P = 0.02), reflecting the accumulation of genomic aberrations in the early stages of disease progression. Within this cohort, 71.4% of homozygous and 44.2% of hemizygous PTEN deletions occurred simultaneously with ERG rearrangements (P ≈ 0). Stratified according to Gleason score (GS), hemizygous PTEN deletions across various GS groups were observed at a higher frequency than homozygous deletions. However, PTEN homozygous deletions showed positive trends with higher GS, increasing in poorly differentiated PCA (GS 8-10) in comparison to moderately and well differentiated tumours (GS 6 and 7).
We show significant association between ERG gene rearrangements and PTEN genomic aberrations in subset of PCA. Our analysis also provides further support for the observation that homozygous PTEN deletions can occur within the subset of HGPIN lesions, and shows accumulating genetic aberrations with disease progression, evidenced by higher detection in PCA than in HGPIN and more PTEN homozygous deletions in GS 8-10 than in 6-7.
BJU International 02/2011; 107(3):477-85. · 2.84 Impact Factor
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Yunru Li,
Jie Su,
Xiao DingZhang,
Jianguo Zhang, Maisa Yoshimoto,
Shuhong Liu,
Krikor Bijian,
Ajay Gupta,
Jeremy A Squire,
Moulay A Alaoui Jamali,
Tarek A Bismar
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ABSTRACT: Overexpression of the pro-survival protein heme oxygenase-1 (HO-1) and loss of the pro-apoptotic tumour suppressor PTEN are common events in prostate cancer (PCA). We assessed the occurrence of both HO-1 expression and PTEN deletion in two cohorts of men with localized and castration-resistant prostate cancer (CRPC). The phenotypic cooperation of these markers was examined in preclinical and clinical models. Overall, there was a statistically significant difference in HO-1 epithelial expression between benign, high-grade prostatic intraepithelial neoplasia (HGPIN), localized PCA, and CRPC (p < 0.0001). The highest epithelial HO-1 expression was noted in CRPC (2.00 ± 0.89), followed by benign prostate tissue (1.49 ± 1.03) (p = 0.0003), localized PCA (1.20 ± 0.95), and HGPIN (1.07 ± 0.87) (p < 0.0001). However, the difference between HGPIN and PCA was not statistically significant (p = 0.21). PTEN deletions were observed in 35/55 (63.6%) versus 68/183 (37.1%) cases of CRPC and localized PCA, respectively. Although neither HO-1 overexpression nor PTEN deletions alone in localized PCA showed a statistically significant association with PSA relapse, the combined status of both markers correlated with disease progression (log-rank test, p = 0.01). In a preclinical model, inhibition of HO-1 by shRNA in PTEN-deficient PC3M cell line and their matched cells where PTEN is restored strongly reduced cell growth and invasion in vitro and inhibited tumour growth and lung metastasis formation in mice compared to cells where only HO-1 is inhibited or PTEN is restored. In summary, we provide clinical and experimental evidence for cooperation between epithelial HO-1 expression and PTEN deletions in relation to the PCA patient's outcome. These findings could potentially lead to the discovery of novel therapeutic modalities for advanced PCA.
The Journal of Pathology 01/2011; 224(1):90-100. · 6.32 Impact Factor
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ABSTRACT: This chapter will summarize novel understandings of the early molecular events in prostatic carcinogenesis that may underlie both the genetic and clinical heterogeneity. Areas covered include preneoplasia, stem cell concepts, telomere abnormalities, and the nature of tumor-stromal interactions. The oncogenomics of prostate cancer is reviewed with emphasis on androgen signaling, ETS gene family aberrations, and PTEN deletion. The notion that "field cancerization," coupled with genomic instability may explain both the occurrence of multifocal disease, and the recent observations of genetic diversity of ERG alteration in individual tumors are discussed. Collectively, genomic studies are rapidly moving human prostate cancer closer to the promise of personalized medicine, so that specific genetic profiles of individual tumors will determine the best therapeutic approaches.
Advances in Cancer Research 01/2011; 112:183-216. · 4.46 Impact Factor
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ABSTRACT: Metastasis is the major cause of prostate cancer deaths. Tumor heterogeneity in both primary and metastatic prostate cancers is a major hurdle in elucidating the mechanisms of metastasis in this disease. To circumvent this obstacle and improve our understanding of prostate cancer metastasis, we developed multiple tumor tissue lines from one patient's primary prostate cancer specimen to examine differences in metastatic ability.
Pieces of tissue from different foci of a patient's primary prostate tumor were grafted into subrenal capsules of NOD-SCID mice and transplantable tumor sublines were established by serial passage. The metastatic ability of each subline was tested via orthotopic grafting into mice. Chromosomal alterations exclusively presented in a metastatic subline were examined by SKY and investigated for their presence in parental tissues by fluorescence in situ hybridization.
Three transplantable sublines were developed, resembling the primary tumor histologically, exhibiting poor differentiation, and different growth rates. Importantly, the LTL-220N and LTL-221N sublines were non-metastatic, whereas the LTL-220M subline was spontaneously metastatic in vivo. SKY analysis showed limited but unique chromosomal alterations in each subline. Some chromosomal alterations, exclusively present in the metastatic LTL-220M subline, were also observed in a small portion of the parental cancer tissues.
The results indicate that in primary prostate tumors metastatic potential can be confined to a minority of cancer cells. Subrenal capsule xenograft methodology can be used to dissect heterogeneous cancer cells in a patient's primary tumor and sublines derived from such cells provide valuable tools for investigating mechanisms underlying prostate cancer metastasis.
The Prostate 11/2010; 70(15):1636-44. · 3.48 Impact Factor
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ABSTRACT: BACKGROUND
Metastasis is the major cause of prostate cancer deaths. Tumor heterogeneity in both primary and metastatic prostate cancers is a major hurdle in elucidating the mechanisms of metastasis in this disease. To circumvent this obstacle and improve our understanding of prostate cancer metastasis, we developed multiple tumor tissue lines from one patient's primary prostate cancer specimen to examine differences in metastatic ability.METHODS
Pieces of tissue from different foci of a patient's primary prostate tumor were grafted into subrenal capsules of NOD-SCID mice and transplantable tumor sublines were established by serial passage. The metastatic ability of each subline was tested via orthotopic grafting into mice. Chromosomal alterations exclusively presented in a metastatic subline were examined by SKY and investigated for their presence in parental tissues by fluorescence in situ hybridization.RESULTSThree transplantable sublines were developed, resembling the primary tumor histologically, exhibiting poor differentiation, and different growth rates. Importantly, the LTL-220N and LTL-221N sublines were non-metastatic, whereas the LTL-220M subline was spontaneously metastatic in vivo. SKY analysis showed limited but unique chromosomal alterations in each subline. Some chromosomal alterations, exclusively present in the metastatic LTL-220M subline, were also observed in a small portion of the parental cancer tissues.CONCLUSION
The results indicate that in primary prostate tumors metastatic potential can be confined to a minority of cancer cells. Subrenal capsule xenograft methodology can be used to dissect heterogeneous cancer cells in a patient's primary tumor and sublines derived from such cells provide valuable tools for investigating mechanisms underlying prostate cancer metastasis. Prostate 70: 1636–1644, 2010. © 2010 Wiley-Liss, Inc.
The Prostate 10/2010; 70(15):1636 - 1644. · 3.48 Impact Factor
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Ade Nubia Xavier Pacanaro,
Denise Maria Christofolini,
Leslie Domenici Kulikowski,
Sintia Iole Nogueira Belangero,
Fernanda Teixeira da Silva Bellucco,
Monica C Varela,
Celia P Koiffmann, Maisa Yoshimoto,
Jeremy A Squire,
Adriana V Schiavon,
Benjamin Heck,
Maria Isabel Melaragno
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ABSTRACT: Supernumerary marker chromosomes (sSMC) may or may not be associated with an abnormal phenotype, depending on the presence of euchromatin, on their chromosomal origin and whether they are inherited. Over 80% of sSMCs are derived from acrocentric chromosomes and half of them include the short arm of chromosome 15. Generally, they appear as bisatellited isodicentric marker chromosomes, most of them are symmetric. These chromosomes are normally originated de novo and are associated with mild to severe intellectual disability but not with physical abnormalities. We report on a patient with an SMC studied using classical and molecular cytogenetic procedures (G and C banding, NOR staining, painting and centromeric fluorescent in situ hybridization (FISH), BAC-FISH, and SKY). The MLPA technique and DNA polymorphic markers were used in order to identify its parental origin. The marker chromosome, monosatellited and monocentric, was found to be derived from a maternal chromosome 15 and was defined as 15pter-q21.2. This is the report of the largest de novo monosatellited 15q marker chromosome ever published presenting detailed cytogenetic and clinical data. It was associated with a phenotype including cardiac defect, absence of septum pellucidum, and dysplasia of the corpus callosum.
American Journal of Medical Genetics Part A 02/2010; 152A(3):753-8. · 2.39 Impact Factor
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ABSTRACT: Pediatric undifferentiated soft tissue sarcomas (USTS) are a diagnostically challenging group of neoplasms. Recently, a subcategory of USTS with primitive round cell morphology and a t(4;19)(q35;q13) rearrangement has been defined. The present study applied high-throughput array comparative genomic hybridization together with spectral karyotyping, four-color fluorescence in situ hybridization (FISH), and reverse transcriptase-polymerase chain reaction (RT-PCR) to a series of three pediatric USTS. Two of these had primitive round cell morphology with CD99 positivity; the third had a spindled and myxoid appearance. By genomic analyses, both primitive round cell sarcomas had t(4;19)(q35;q13) [corrected] rearrangements in addition to several imbalances throughout the genome. Four-color FISH and in silico analyses of the breakpoint region at 19q13 identified the potential involvement of the candidate oncogene CIC. By RT-PCR, fusion transcripts involving CIC (19q13) and DUX4 (4q35) were confirmed to be present in both primitive round cell sarcomas, further defining the breakpoints seen by genomic analysis. Described here are two tumors belonging to the rare category of CIC-DUX4-positive primitive sarcomas, with detailed cytogenetic and genomic information regarding this novel subclass of pediatric malignancy. Molecular and cytogenetic techniques for the detection of the CIC-DUX4 fusion gene are described, to aid in recognition and diagnosis.
Cancer genetics and cytogenetics 11/2009; 195(1):1-11. · 1.54 Impact Factor
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ABSTRACT: The analysis of panels of nucleic acid biomarkers offers valuable diagnostic and prognostic information for cancer management. A cost-effective, highly sensitive electronic chip would offer an ideal platform for clinical biomarker readout and would have maximal utility if it was (i) multiplexed, enabling on-chip assays of multiple biomarkers, and (ii) able to perform direct (PCR-free) readout of disease-related genes. Here we report a chip onto which we integrate novel nanostructured microelectrodes and with which we directly detect cancer biomarkers in heterogeneous biological samples-both cell extracts and tumor tissues. Coarse photolithographic microfabrication defines a multiplexed sensing array; bottom-up fabrication of nanostructured microelectrodes then provides sensing elements. We analyzed a panel of mRNA samples for prostate cancer related gene fusions using the chip. We accurately identified gene fusions that correlate with aggressive prostate cancer and distinguished these from fusions associated with slower-progressing forms of the disease. The multiplexed nanostructured microelectrode integrated circuit reported herein provides direct, amplification-free, sample-to-answer in under 1 h using the 10 ng of mRNA readily available in biopsy samples.
ACS Nano 10/2009; 3(10):3207-13. · 10.77 Impact Factor
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Adrian S Ishkanian,
Chad A Mallof,
James Ho,
Alice Meng,
Monique Albert,
Amena Syed,
Theodorus van der Kwast,
Michael Milosevic, Maisa Yoshimoto,
Jeremy A Squire,
Wan L Lam,
Robert G Bristow
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ABSTRACT: Approximately one-third of prostate cancer patients present with intermediate risk disease. Interestingly, while this risk group is clinically well defined, it demonstrates the most significant heterogeneity in PSA-based biochemical outcome. Further, the majority of candidate genes associated with prostate cancer progression have been identified using cell lines, xenograft models, and high-risk androgen-independent or metastatic patient samples. We used a global high-resolution array comparative genomic hybridization (CGH) assay to characterize copy number alterations (CNAs) in intermediate risk prostate cancer. Herein, we show this risk group contains a number of alterations previously associated with high-risk disease: (1) deletions at 21q22.2 (TMPRSS2:ERG), 16q22-24 (containing CDH1), 13q14.2 (RB1), 10q23.31 (PTEN), 8p21 (NKX3.1); and, (2) amplification at 8q21.3-24.3 (containing c-MYC). In addition, we identified six novel microdeletions at high frequency: 1q42.12-q42.3 (33.3%), 5q12.3-13.3 (21%), 20q13.32-13.33 (29.2%), 22q11.21 (25%), 22q12.1 (29.2%), and 22q13.31 (33.3%). Further, we show there is little concordance between CNAs from these clinical samples and those found in commonly used prostate cancer cell models. These unexpected findings suggest that the intermediate-risk category is a crucial cohort warranting further study to determine if a unique molecular fingerprint can predict aggressive versus indolent phenotypes.
The Prostate 05/2009; 69(10):1091-100. · 3.48 Impact Factor
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ABSTRACT: Osteosarcoma (OS) is an aggressive bone tumor with complex abnormal karyotypes and a highly unstable genome, exhibiting both numerical- and structural-chromosomal instability (N- and S-CIN). Chromosomal rearrangements and genomic imbalances affecting 8q24 are frequent in OS. RECQL4 gene maps to this cytoband and encodes a putative helicase involved in the fidelity of DNA replication and repair. This protective genomic function of the protein is relevant because often patients with Rothmund-Thomson syndrome have constitutional mutations of RECQL4 and carry a very high risk of developing OS. To determine the relative level of expression of RECQL4 in OS, 18 sporadic tumors were studied by reverse transcription-polymerase chain reaction. All tumors overexpressed RECQL4 in comparison to control osteoblasts, and fluorescence in situ hybridization analysis of tumor DNA showed that expression levels were strongly copy number-dependent. Relative N- and S-CIN levels were determined by classifying copy number transitions within array comparative genomic hybridization profiles and by enumerating the frequency of break-apart fluorescence in situ hybridization within 8q24 using region-specific and control probes. Although there was no evidence that disruption of 8q24 in OS led to an elevated expression of RECQL4, there was a marked association between increased overall levels of S-CIN, determined by copy number transition frequency and higher levels of RECQL4.
Neoplasia (New York, N.Y.) 04/2009; 11(3):260-8, 3p following 268. · 5.48 Impact Factor
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ABSTRACT: Altered gene expression in tumors can be caused by copy number alterations to DNA or mutation affecting coding or regulatory regions of genes. However, epigenetic events may also influence gene expression. Malignant cells can show major disruptions in DNA methylation profiles, which are manifested as aberrant hypermethylation or as hypomethylation of gene promoters, as well as global genomic hypomethylation. In this study we performed integrative whole-genome analysis of DNA copy number, promoter methylation and gene expression using 10 osteosarcomas. We identified significant changes including: hypomethylation, gain, and overexpression of histone cluster 2 genes at chromosome 1q21.1-q21.3; loss of chromosome 8p21.2-p21.3 and underexpression of DOCK5 and TNFRSF10A/D genes; and amplification-related overexpression of RUNX2 at chromosome 6p12.3-p21.1. Amplification and overexpression of RUNX2 could disrupt G2/M cell cycle checkpoints, and downstream osteosarcoma-specific changes, such as failure of bone differentiation and genomic polyploidization. Failure of DOCK5-signaling, together with p53 and TNFRSF10A/D-related cell cycle and death pathways, may play a critical role in abrogating apoptosis. Our analyses show that the RUNX2 interactome may be constitutively activated in osteosarcoma, and that the downstream intracellular pathways are strongly associated with the regulation of osteoblast differentiation and control of cell cycle and apoptosis in osteosarcoma.
Human Molecular Genetics 04/2009; 18(11):1962-75. · 7.64 Impact Factor
