Sir Peter MacCallum Department of Oncology - Research Publications

Permanent URI for this collection

http://hdl.handle.net/11343/274

Filters

2015 - 2018 4
4
Reset filters

Settings
Statistics
Citations
Start date: 2010 × End date: 2019 × Author: Bowtell, David × Author: Campbell, Ian × Author: Ramus, Susan ×

Search Results

Now showing 1 - 4 of 4
  • Item
    Thumbnail Image
    Cis-eQTL analysis and functional validation of candidate susceptibility genes for high-grade serous ovarian cancer
    Lawrenson, K ; Li, Q ; Kar, S ; Seo, J-H ; Tyrer, J ; Spindler, TJ ; Lee, J ; Chen, Y ; Karst, A ; Drapkin, R ; Aben, KKH ; Anton-Culver, H ; Antonenkova, N ; Baker, H ; Bandera, EV ; Bean, Y ; Beckmann, MW ; Berchuck, A ; Bisogna, M ; Bjorge, L ; Bogdanova, N ; Brinton, LA ; Brooks-Wilson, A ; Bruinsma, F ; Butzow, R ; Campbell, IG ; Carty, K ; Chang-Claude, J ; Chenevix-Trench, G ; Chen, A ; Chen, Z ; Cook, LS ; Cramer, DW ; Cunningham, JM ; Cybulski, C ; Dansonka-Mieszkowska, A ; Dennis, J ; Dicks, E ; Doherty, JA ; Doerk, T ; Du Bois, A ; Duerst, M ; Eccles, D ; Easton, DT ; Edwards, RP ; Eilber, U ; Ekici, AB ; Fasching, PA ; Fridley, BL ; Gao, Y-T ; Gentry-Maharaj, A ; Giles, GG ; Glasspool, R ; Goode, EL ; Goodman, MT ; Grownwald, J ; Harrington, P ; Harter, P ; Hasmad, HN ; Hein, A ; Heitz, F ; Hildebrandt, MAT ; Hillemanns, P ; Hogdall, E ; Hogdall, C ; Hosono, S ; Iversen, ES ; Jakubowska, A ; James, P ; Jensen, A ; Ji, B-T ; Karlan, BY ; Kjaer, SK ; Kelemen, LE ; Kellar, M ; Kelley, JL ; Kiemeney, LA ; Krakstad, C ; Kupryjanczyk, J ; Lambrechts, D ; Lambrechts, S ; Le, ND ; Lee, AW ; Lele, S ; Leminen, A ; Lester, J ; Levine, DA ; Liang, D ; Lissowska, J ; Lu, K ; Lubinski, J ; Lundvall, L ; Massuger, LFAG ; Matsuo, K ; McGuire, V ; McLaughlin, JR ; Nevanlinna, H ; McNeish, I ; Menon, U ; Modugno, F ; Moysich, KB ; Narod, SA ; Nedergaard, L ; Ness, RB ; Azmi, MAN ; Odunsi, K ; Olson, SH ; Orlow, I ; Orsulic, S ; Weber, RP ; Pearce, CL ; Pejovic, T ; Pelttari, LM ; Permuth-Wey, J ; Phelan, CM ; Pike, MC ; Poole, EM ; Ramus, SJ ; Risch, HA ; Rosen, B ; Rossing, MA ; Rothstein, JH ; Rudolph, A ; Runnebaum, IB ; Rzepecka, IK ; Salvesen, HB ; Schildkraut, JM ; Schwaab, I ; Sellers, TA ; Shu, X-O ; Shvetsov, YB ; Siddiqui, N ; Sieh, W ; Song, H ; Southey, MC ; Sucheston, L ; Tangen, IL ; Teo, S-H ; Terry, KL ; Thompson, PJ ; Timorek, A ; Tsai, Y-Y ; Tworoger, SS ; Van Altena, AM ; Van Nieuwenhuysen, E ; Vergote, I ; Vierkant, RA ; Wang-Gohrke, S ; Walsh, C ; Wentzensen, N ; Whittemore, AS ; Wicklund, KG ; Wilkens, LR ; Woo, Y-L ; Wu, X ; Wu, AH ; Yang, H ; Zheng, W ; Ziogas, A ; Monteiro, A ; Pharoah, PD ; Gayther, SA ; Freedman, ML ; Grp, AOCS ; Bowtell, D ; Webb, PM ; Defazio, A (NATURE RESEARCH, 2015-09)
    Genome-wide association studies have reported 11 regions conferring risk of high-grade serous epithelial ovarian cancer (HGSOC). Expression quantitative trait locus (eQTL) analyses can identify candidate susceptibility genes at risk loci. Here we evaluate cis-eQTL associations at 47 regions associated with HGSOC risk (P≤10(-5)). For three cis-eQTL associations (P<1.4 × 10(-3), FDR<0.05) at 1p36 (CDC42), 1p34 (CDCA8) and 2q31 (HOXD9), we evaluate the functional role of each candidate by perturbing expression of each gene in HGSOC precursor cells. Overexpression of HOXD9 increases anchorage-independent growth, shortens population-doubling time and reduces contact inhibition. Chromosome conformation capture identifies an interaction between rs2857532 and the HOXD9 promoter, suggesting this SNP is a leading causal variant. Transcriptomic profiling after HOXD9 overexpression reveals enrichment of HGSOC risk variants within HOXD9 target genes (P=6 × 10(-10) for risk variants (P<10(-4)) within 10 kb of a HOXD9 target gene in ovarian cells), suggesting a broader role for this network in genetic susceptibility to HGSOC.
  • Item
    Thumbnail Image
    MyD88 and TLR4 Expression in Epithelial Ovarian Cancer
    Block, MS ; Vierkant, RA ; Rambau, PF ; Winham, SJ ; Wagner, P ; Traficante, N ; Toloczko, A ; Tiezzi, DG ; Taran, FA ; Sinn, P ; Sieh, W ; Sharma, R ; Rothstein, JH ; Ramon y Cajal, T ; Paz-Ares, L ; Oszurek, O ; Orsulic, S ; Ness, RB ; Nelson, G ; Modugno, F ; Menkiszak, J ; McGuire, V ; McCauley, BM ; Mack, M ; Lubinski, J ; Longacre, TA ; Li, Z ; Lester, J ; Kennedy, CJ ; Kalli, KR ; Jung, AY ; Johnatty, SE ; Jimenez-Linan, M ; Jensen, A ; Intermaggio, MP ; Hung, J ; Herpel, E ; Hernandez, BY ; Hartkopf, AD ; Harnett, PR ; Ghatage, P ; Garcia-Bueno, JM ; Gao, B ; Fereday, S ; Eilber, U ; Edwards, RP ; de Sousa, CB ; de Andrade, JM ; Chudecka-Glaz, A ; Chenevix-Trench, G ; Cazorla, A ; Brucker, SY ; Alsop, J ; Whittemore, AS ; Steed, H ; Staebler, A ; Moysich, KB ; Menon, U ; Koziak, JM ; Kommoss, S ; Kjaer, SK ; Kelemen, LE ; Karlan, BY ; Huntsman, DG ; Hogdall, E ; Gronwald, J ; Goodman, MT ; Gilks, B ; Jose Garcia, M ; Fasching, PA ; de Fazio, A ; Deen, S ; Chang-Claude, J ; dos Reis, FJC ; Campbell, IG ; Brenton, JD ; Bowtell, DD ; Benitez, J ; Pharoah, PDP ; Kobel, M ; Ramus, SJ ; Goode, EL (ELSEVIER SCIENCE INC, 2018-03)
    OBJECTIVE: To evaluate myeloid differentiation primary response gene 88 (MyD88) and Toll-like receptor 4 (TLR4) expression in relation to clinical features of epithelial ovarian cancer, histologic subtypes, and overall survival. PATIENTS AND METHODS: We conducted centralized immunohistochemical staining, semi-quantitative scoring, and survival analysis in 5263 patients participating in the Ovarian Tumor Tissue Analysis consortium. Patients were diagnosed between January 1, 1978, and December 31, 2014, including 2865 high-grade serous ovarian carcinomas (HGSOCs), with more than 12,000 person-years of follow-up time. Tissue microarrays were stained for MyD88 and TLR4, and staining intensity was classified using a 2-tiered system for each marker (weak vs strong). RESULTS: Expression of MyD88 and TLR4 was similar in all histotypes except clear cell ovarian cancer, which showed reduced expression compared with other histotypes (P<.001 for both). In HGSOC, strong MyD88 expression was modestly associated with shortened overall survival (hazard ratio [HR], 1.13; 95% CI, 1.01-1.26; P=.04) but was also associated with advanced stage (P<.001). The expression of TLR4 was not associated with survival. In low-grade serous ovarian cancer (LGSOC), strong expression of both MyD88 and TLR4 was associated with favorable survival (HR [95% CI], 0.49 [0.29-0.84] and 0.44 [0.21-0.89], respectively; P=.009 and P=.02, respectively). CONCLUSION: Results are consistent with an association between strong MyD88 staining and advanced stage and poorer survival in HGSOC and demonstrate correlation between strong MyD88 and TLR4 staining and improved survival in LGSOC, highlighting the biological differences between the 2 serous histotypes.
  • Item
    Thumbnail Image
    Functional mechanisms underlying pleiotropic risk alleles at the 19p13.1 breast-ovarian cancer susceptibility locus
    Lawrenson, K ; Kar, S ; McCue, K ; Kuchenbaeker, K ; Michailidou, K ; Tyrer, J ; Beesley, J ; Ramus, SJ ; Li, Q ; Delgado, MK ; Lee, JM ; Aittomaki, K ; Andrulis, IL ; Anton-Culver, H ; Arndt, V ; Arun, BK ; Arver, B ; Bandera, EV ; Barile, M ; Barkardottir, RB ; Barrowdale, D ; Beckmann, MW ; Benitez, J ; Berchuck, A ; Bisogna, M ; Bjorge, L ; Blomqvist, C ; Blot, W ; Bogdanova, N ; Bojesen, A ; Bojesen, SE ; Bolla, MK ; Bonanni, B ; Borresen-Dale, A-L ; Brauch, H ; Brennan, P ; Brenner, H ; Bruinsma, F ; Brunet, J ; Buhari, SA ; Burwinkel, B ; Butzow, R ; Buys, SS ; Cai, Q ; Caldes, T ; Campbell, I ; Canniotto, R ; Chang-Claude, J ; Chiquette, J ; Choi, J-Y ; Claes, KBM ; Cook, LS ; Cox, A ; Cramer, DW ; Cross, SS ; Cybulski, C ; Czene, K ; Daly, MB ; Damiola, F ; Dansonka-Mieszkowska, A ; Darabi, H ; Dennis, J ; Devilee, P ; Diez, O ; Doherty, JA ; Domchek, SM ; Dorfling, CM ; Doerk, T ; Dumont, M ; Ehrencrona, H ; Ejlertsen, B ; Ellis, S ; Engel, C ; Lee, E ; Evans, DG ; Fasching, PA ; Feliubadalo, L ; Figueroa, J ; Flesch-Janys, D ; Fletcher, O ; Flyger, H ; Foretova, L ; Fostira, F ; Foulkes, WD ; Fridley, BL ; Friedman, E ; Frost, D ; Gambino, G ; Ganz, PA ; Garber, J ; Garcia-Closas, M ; Gentry-Maharaj, A ; Ghoussaini, M ; Giles, GG ; Glasspool, R ; Godwin, AK ; Goldberg, MS ; Goldgar, DE ; Gonzalez-Neira, A ; Goode, EL ; Goodman, MT ; Greene, MH ; Gronwald, J ; Guenel, P ; Haiman, CA ; Hall, P ; Hallberg, E ; Hamann, U ; Hansen, TVO ; Harrington, PA ; Hartman, M ; Hassan, N ; Healey, S ; Heitz, F ; Herzog, J ; Hogdall, E ; Hogdall, CK ; Hogervorst, FBL ; Hollestelle, A ; Hopper, JL ; Hulick, PJ ; Huzarski, T ; Imyanitov, EN ; Isaacs, C ; Ito, H ; Jakubowska, A ; Janavicius, R ; Jensen, A ; John, EM ; Johnson, N ; Kabisch, M ; Kang, D ; Kapuscinski, M ; Karlan, BY ; Khan, S ; Kiemeney, LA ; Kjaer, SK ; Knight, JA ; Konstantopoulou, I ; Kosma, V-M ; Kristensen, V ; Kupryjanczyk, J ; Kwong, A ; de la Hoya, M ; Laitman, Y ; Lambrechts, D ; Le, N ; De Leeneer, K ; Lester, J ; Levine, DA ; Li, J ; Lindblom, A ; Long, J ; Lophatananon, A ; Loud, JT ; Lu, K ; Lubinski, J ; Mannermaa, A ; Manoukian, S ; Le Marchand, L ; Margolin, S ; Marme, F ; Massuger, LFAG ; Matsuo, K ; Mazoyer, S ; McGuffog, L ; McLean, C ; McNeish, I ; Meindl, A ; Menon, U ; Mensenkamp, AR ; Milne, RL ; Montagna, M ; Moysich, KB ; Muir, K ; Mulligan, AM ; Nathanson, KL ; Ness, RB ; Neuhausen, SL ; Nevanlinna, H ; Nord, S ; Nussbaum, RL ; Odunsi, K ; Offit, K ; Olah, E ; Olopade, OI ; Olson, JE ; Olswold, C ; O'Malley, D ; Orlow, I ; Orr, N ; Osorio, A ; Park, SK ; Pearce, CL ; Pejovic, T ; Peterlongo, P ; Pfeiler, G ; Phelan, CM ; Poole, EM ; Pylkas, K ; Radice, P ; Rantala, J ; Rashid, MU ; Rennert, G ; Rhenius, V ; Rhiem, K ; Risch, HA ; Rodriguez, G ; Rossing, MA ; Rudolph, A ; Salvesen, HB ; Sangrajrang, S ; Sawyer, EJ ; Schildkraut, JM ; Schmidt, MK ; Schmutzler, RK ; Sellers, TA ; Seynaeve, C ; Shah, M ; Shen, C-Y ; Shu, X-O ; Sieh, W ; Singer, CF ; Sinilnikova, OM ; Slager, S ; Song, H ; Soucy, P ; Southey, MC ; Stenmark-Askmalm, M ; Stoppa-Lyonnet, D ; Sutter, C ; Swerdlow, A ; Tchatchou, S ; Teixeira, MR ; Teo, SH ; Terry, KL ; Terry, MB ; Thomassen, M ; Tibiletti, MG ; Tihomirova, L ; Tognazzo, S ; Toland, AE ; Tomlinson, I ; Torres, D ; Truong, T ; Tseng, C-C ; Tung, N ; Tworoger, SS ; Vachon, C ; van den Ouweland, AMW ; van Doorn, HC ; van Rensburg, EJ ; Van't Veer, LJ ; Vanderstichele, A ; Vergote, I ; Vijai, J ; Wang, Q ; Wang-Gohrke, S ; Weitzel, JN ; Wentzensen, N ; Whittemore, AS ; Wildiers, H ; Winqvist, R ; Wu, AH ; Yannoukakos, D ; Yoon, S-Y ; Yu, J-C ; Zheng, W ; Zheng, Y ; Khanna, KK ; Simard, J ; Monteiro, AN ; French, JD ; Couch, FJ ; Freedman, ML ; Easton, DF ; Dunning, AM ; Pharoah, PD ; Edwards, SL ; Chenevix-Trench, G ; Antoniou, AC ; Gayther, SA (NATURE PORTFOLIO, 2016-09)
    A locus at 19p13 is associated with breast cancer (BC) and ovarian cancer (OC) risk. Here we analyse 438 SNPs in this region in 46,451 BC and 15,438 OC cases, 15,252 BRCA1 mutation carriers and 73,444 controls and identify 13 candidate causal SNPs associated with serous OC (P=9.2 × 10(-20)), ER-negative BC (P=1.1 × 10(-13)), BRCA1-associated BC (P=7.7 × 10(-16)) and triple negative BC (P-diff=2 × 10(-5)). Genotype-gene expression associations are identified for candidate target genes ANKLE1 (P=2 × 10(-3)) and ABHD8 (P<2 × 10(-3)). Chromosome conformation capture identifies interactions between four candidate SNPs and ABHD8, and luciferase assays indicate six risk alleles increased transactivation of the ADHD8 promoter. Targeted deletion of a region containing risk SNP rs56069439 in a putative enhancer induces ANKLE1 downregulation; and mRNA stability assays indicate functional effects for an ANKLE1 3'-UTR SNP. Altogether, these data suggest that multiple SNPs at 19p13 regulate ABHD8 and perhaps ANKLE1 expression, and indicate common mechanisms underlying breast and ovarian cancer risk.
  • Item
    No Preview Available
    Enhanced GAB2 Expression Is Associated with Improved Survival in High-Grade Serous Ovarian Cancer and Sensitivity to PI3K Inhibition
    Davis, SJ ; Sheppard, KE ; Anglesio, MS ; George, J ; Traficante, N ; Fereday, S ; Intermaggio, MP ; Menon, U ; Gentry-Maharaj, A ; Lubinski, J ; Gronwald, J ; Pearce, CL ; Pike, MC ; Wu, A ; Kommoss, S ; Pfisterer, J ; du Bois, A ; Hilpert, F ; Ramus, SJ ; Bowtell, DDL ; Huntsman, DG ; Pearson, RB ; Simpson, KJ ; Campbell, IG ; Gorringe, KL (AMER ASSOC CANCER RESEARCH, 2015-06)
    Identification of genomic alterations defining ovarian carcinoma subtypes may aid the stratification of patients to receive targeted therapies. We characterized high-grade serous ovarian carcinoma (HGSC) for the association of amplified and overexpressed genes with clinical outcome using gene expression data from 499 HGSC patients in the Ovarian Tumor Tissue Analysis cohort for 11 copy number amplified genes: ATP13A4, BMP8B, CACNA1C, CCNE1, DYRK1B, GAB2, PAK4, RAD21, TPX2, ZFP36, and URI. The Australian Ovarian Cancer Study and The Cancer Genome Atlas datasets were also used to assess the correlation between gene expression, patient survival, and tumor classification. In a multivariate analysis, high GAB2 expression was associated with improved overall and progression-free survival (P = 0.03 and 0.02), whereas high BMP8B and ATP13A4 were associated with improved progression-free survival (P = 0.004 and P = 0.02). GAB2 overexpression and copy number gain were enriched in the AOCS C4 subgroup. High GAB2 expression correlated with enhanced sensitivity in vitro to the dual PI3K/mTOR inhibitor PF-04691502 and could be used as a genomic marker for identifying patients who will respond to treatments inhibiting PI3K signaling.