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  • 1
    Online Resource
    Online Resource
    Comprehensive Molecular Characterization of Muscle-Invasive Bladder Cancer
    Elsevier BV ; 2017
    In:  Cell Vol. 171, No. 3 ( 2017-10), p. 540-556.e25
    Details
    In: Cell, Elsevier BV, Vol. 171, No. 3 ( 2017-10), p. 540-556.e25
    Type of Medium: Online Resource
    ISSN: 0092-8674
    URL: Article
    DOI: 10.1016/j.cell.2017.09.007
    RVK:
    XA 36269
    RVK:
    WA 15000
    Language: English
    Publisher: Elsevier BV
    Publication Date: 2017
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  • 2
    Online Resource
    Online Resource
    Abstract 2969: Progress in The Cancer Genome Atlas bladder cancer project
    American Association for Cancer Research (AACR) ; 2015
    In:  Cancer Research Vol. 75, No. 15_Supplement ( 2015-08-01), p. 2969-2969
    Details
    In: Cancer Research, American Association for Cancer Research (AACR), Vol. 75, No. 15_Supplement ( 2015-08-01), p. 2969-2969
    Abstract: In 2014, as part of The Cancer Genome Atlas (TCGA) Project, we reported molecular profiling of 131 chemotherapy-naive, muscle-invasive urothelial bladder cancers for DNA copy number variants (CNVs), somatic mutations by whole exome sequencing (WES), DNA methylation, mRNA expression, microRNA expression, protein expression and phosphorylation, transcript splicing, gene fusion, viral integration, pathway perturbation, clinical correlates, and histopathology (TCGA Research Network, Nature 507:315, 2014). Since that time, the number of tumors (from 19 tissue source sites) profiled comprehensively has doubled, and the final analyzed cohort will total 412 by February 2015. Unsupervised consensus clustering for the data from miRNAseq on the first 310 tumor samples shows five robust clusters, with miR-99a, miR-100, and miR-200 family members differentially abundant across the clusters. mRNA clusters I-IV remained stable as well. For the 266 tumour samples for which we have both miRNA and mRNA data, potential miRNA-mRNA targeting relationships supported by functional validation publications include miR-100-5p targeting FGFR3. The data also highlight the miR-200 family, miR-29abc, miR-17-92 and 106b-25 complexes, as well as miR-34a, miR-155, and miR-21. At this time, mutation analysis of WES data has been completed for 238 samples (including the first 131). Seven additional significantly mutated genes (using MutSig) have been identified: ASXL2 (11%), HSP90AA1 (7%), PSIP1 (5%), ZFP36L2 (5%), ZNF513 (5%), PTEN (4%), CEBPB (2%) (mutant frequency in parentheses). A sample with a POLE exonuclease domain mutation (P286R) exhibited an ultra-mutant phenotype (mutation rate ∼100 per MB). Many of the 38 (total) SMGs have not previously been described in bladder cancer. Combining copy number variation and somatic mutation data, 69% of tumors harbor one or more potentially actionable targets. Three mutation clusters were identified and characterized as: 1) “Focally amplified” - enriched in focal copy number alterations (e.g., 3p loss/PPARG) and MLL2 mutations; 2) Enriched for TP53 and RB1 mutations, E2F3 amplifications; and 3) Papillary histology, FGFR3 mutant CDKN2A-deficient. This work was supported by the following grants from the United States National Institutes of Health: U54HG003273, U54 HG003067, U54 HG003079, U24 CA143799, U24 CA143835, U24CA143840, U24 CA143843, U24 CA143845, U24 CA143848, U24 CA143858, U24CA143866, U24 CA143867, U24 CA143882, U24 CA143883, U24 CA144025 and P01 CA120964, as well as multiple other funding sources for the individual authors. Citation Format: John N. Weinstein, Jaegil Kim, Chad J. Creighton, Rehan Akbani, Katherine A. Hoadley, William Y. Kim, Margaret B. Morgan, Toshinori Hinoue, Andrew Cherniack, Xiaoping Su, Andrew J. Mungall, Michael C. Ryan, Dean F. Bajorin, Jonathan E. Rosenberg, Bogdan Czerniak, Donna Hansel, Victor E. Reuter, Brian D. Robinson, Hikmat A. Al-Ahmadie, Jeffrey S. Damrauer, Wei Zhang, Yuexin Liu, Dmitry R. Gordenin, Joshua M. Stuart, Nikolaus Schultz, Gordon Robertson, Steven JM Jones, Raju R. Kucherlapati, David J. McConkey, Peter W. Laird, Gordon B. Mills, David J. Kwiatkowski, Seth P. Lerner, TCGA Bladder Cancer Working Group, TCGA Research Network. Progress in The Cancer Genome Atlas bladder cancer project. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2969. doi:10.1158/1538-7445.AM2015-2969
    Type of Medium: Online Resource
    ISSN: 0008-5472 , 1538-7445
    URL: Article
    DOI: 10.1158/1538-7445.AM2015-2969
    RVK:
    XA 36000
    RVK:
    XA 10000
    Language: English
    Publisher: American Association for Cancer Research (AACR)
    Publication Date: 2015
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  • 3
    Online Resource
    Online Resource
    Development of Biologic Markers of Response and Assessment of Antiangiogenic Activity in a Clinical Trial of Human Recombinant Endostatin
    American Society of Clinical Oncology (ASCO) ; 2002
    In:  Journal of Clinical Oncology Vol. 20, No. 18 ( 2002-09-15), p. 3804-3814
    Details
    In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 20, No. 18 ( 2002-09-15), p. 3804-3814
    Abstract: PURPOSE: Angiogenesis is a target for the treatment of cancer and other diseases, and its complex biology suggests that establishing the appropriate dose and schedule for antiangiogenic treatment will require extensive study. We present the initial results of a dose-finding clinical trial of recombinant human endostatin (rh-Endo) that examined potential surrogates for response to antiangiogenic therapy. PATIENTS AND METHODS: Twenty-five patients were treated with escalating doses of rh-Endo. Positron emission tomography (PET) was used to assess tumor blood flow (with [ 15 O]H 2 O) and metabolism (with [ 18 F]fluorodeoxyglucose) before the start of therapy and then every 4 weeks. To directly assess the effects of rh-Endo on endothelial cells within the tumors, biopsy specimens of tumor tissue were obtained before therapy and again at 8 weeks and evaluated for endothelial cell and tumor cell apoptosis. RESULTS: Tumor blood flow and metabolism as measured by PET scans generally decreased with increasing doses of rh-Endo; however, the effects were complex and in some analyses nonlinear. Tumor biopsy analysis revealed a significant increase in tumor cell apoptosis (P = .027) and endothelial cell apoptosis (P = .027) after 8 weeks of therapy. However, there was no statistically significant relationship between rh-Endo dose and induction of tumor cell or endothelial cell apoptosis. CONCLUSION: These initial data suggest that rh-Endo has measurable effects on tumor blood flow and metabolism and induces endothelial and tumor cell apoptosis even in the absence of demonstrable anticancer effects. Further study and validation of these biomarkers in the context of antiangiogenic therapy will be required.
    Type of Medium: Online Resource
    ISSN: 0732-183X , 1527-7755
    URL: Article
    DOI: 10.1200/JCO.2002.05.102
    RVK:
    XA 52760
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Clinical Oncology (ASCO)
    Publication Date: 2002
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  • 4
    Online Resource
    Online Resource
    Identification of lineage-specific transcription factor defined subtypes in small cell/neuroendocrine bladder cancer.
    American Society of Clinical Oncology (ASCO) ; 2023
    In:  Journal of Clinical Oncology Vol. 41, No. 6_suppl ( 2023-02-20), p. 568-568
    Details
    In: Journal of Clinical Oncology, American Society of Clinical Oncology (ASCO), Vol. 41, No. 6_suppl ( 2023-02-20), p. 568-568
    Abstract: 568 Background: Small cell/neuroendocrine bladder cancer (SCBC) is a rare and clinically aggressive disease. However, its molecular characteristics are poorly studied; hence, biology-based therapeutic options are not available. Strong pan-cancer similarity in gene expression signature of neuroendocrine (NE) tumors including SCBC and small cell lung cancer (SCLC) has been reported. Recent genomics studies discovered that SCLC can be grouped into lineage- specific transcription factor (TF)-defined subtypes. Therefore, we explored whether TF-defined molecular subtypes could also be observed in SCBC with the goal of developing subtype-specific therapeutic strategies. Methods: Whole transcriptome RNAseq on a cohort of n = 44 pure SCBCs collected at Johns Hopkins (n=20) and Tenon Hospital (Paris) (n=24) and DNA panel sequencing on subset of the tumors (n=24) were performed. Two expert genitourinary pathologists selected the cases for the analyses based on the histopathological characteristics of the tumor tissue. Results: SCBC tumors displayed overexpression of canonical NE markers and high mutation rates in TERT, TP53 and RB1 with 92%, 75% and 38%, respectively, confirming the concordance between genomic features and histopathologic characteristics.Lineage-specific TFs (ASCL1, NEUROD1, and POU2F3) defined three molecular subtypes of SCBC that resembled the previously reported SCLC subtypes. The three subtypes expressed variable levels of NE biomarkers and were heterogeneous with respect to distinct downstream therapeutic targets. The ASCL1 and NEUROD1 subtypes expressed the highest levels of NE lineage-specific gene expression and were associated with expression of known regulators of the neuroendocrine phenotype including FOXA2 and HES6, respectively. The ASCL1 subtype was also enriched with DLLs and other genes that control oncogenic Notch signaling, whereas tumors enriched with POU2F3, a master regulator of the NE-low SCBC subtype, expressed TRPM5, SOX9 and CHAT. Finally, an inverse association between NE lineage-specific gene expression and immune signatures associated with response to immunotherapy was observed. Conclusions: Three lineage-specific TFs (ASCL1, NEUROD1, and POU2F3) defined discrete molecular subtypes in SCBC. Each subtype was characterized by distinct therapeutic targets and gene expression signatures associated with response to immunotherapy. Future studies will be required to test the clinical relevance of these observations.
    Type of Medium: Online Resource
    ISSN: 0732-183X , 1527-7755
    URL: Article
    DOI: 10.1200/JCO.2023.41.6_suppl.568
    RVK:
    XA 52760
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Clinical Oncology (ASCO)
    Publication Date: 2023
    detail.hit.zdb_id: 2005181-5
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