Clinical Pathology - Research Publications

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Author: Baglietto, Laura × Author: Severi, Gianluca × Author: Southey, Melissa × Start date: 1962 ×

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    Methylation-based markers of aging and lifestyle-related factors and risk of breast cancer: a pooled analysis of four prospective studies
    Dugue, P-A ; Bodelon, C ; Chung, FF ; Brewer, HR ; Ambatipudi, S ; Sampson, JN ; Cuenin, C ; Chajes, V ; Romieu, I ; Fiorito, G ; Sacerdote, C ; Krogh, V ; Panico, S ; Tumino, R ; Vineis, P ; Polidoro, S ; Baglietto, L ; English, D ; Severi, G ; Giles, GG ; Milne, RL ; Herceg, Z ; Garcia-Closas, M ; Flanagan, JM ; Southey, MC (BMC, 2022-09-06)
    BACKGROUND: DNA methylation in blood may reflect adverse exposures accumulated over the lifetime and could therefore provide potential improvements in the prediction of cancer risk. A substantial body of research has shown associations between epigenetic aging and risk of disease, including cancer. Here we aimed to study epigenetic measures of aging and lifestyle-related factors in association with risk of breast cancer. METHODS: Using data from four prospective case-control studies nested in three cohorts of European ancestry participants, including a total of 1,655 breast cancer cases, we calculated three methylation-based measures of lifestyle factors (body mass index [BMI], tobacco smoking and alcohol consumption) and seven measures of epigenetic aging (Horvath-based, Hannum-based, PhenoAge and GrimAge). All measures were regression-adjusted for their respective risk factors and expressed per standard deviation (SD). Odds ratios (OR) and 95% confidence intervals (CI) were calculated using conditional or unconditional logistic regression and pooled using fixed-effects meta-analysis. Subgroup analyses were conducted by age at blood draw, time from blood sample to diagnosis, oestrogen receptor-positivity status and tumour stage. RESULTS: None of the measures of epigenetic aging were associated with risk of breast cancer in the pooled analysis: Horvath 'age acceleration' (AA): OR per SD = 1.02, 95%CI: 0.95-1.10; AA-Hannum: OR = 1.03, 95%CI:0.95-1.12; PhenoAge: OR = 1.01, 95%CI: 0.94-1.09 and GrimAge: OR = 1.03, 95%CI: 0.94-1.12, in models adjusting for white blood cell proportions, body mass index, smoking and alcohol consumption. The BMI-adjusted predictor of BMI was associated with breast cancer risk, OR per SD = 1.09, 95%CI: 1.01-1.17. The results for the alcohol and smoking methylation-based predictors were consistent with a null association. Risk did not appear to substantially vary by age at blood draw, time to diagnosis or tumour characteristics. CONCLUSION: We found no evidence that methylation-based measures of aging, smoking or alcohol consumption were associated with risk of breast cancer. A methylation-based marker of BMI was associated with risk and may provide insights into the underlying associations between BMI and breast cancer.
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    Genome-Wide Measures of Peripheral Blood Dna Methylation and Prostate Cancer Risk in a Prospective Nested Case-Control Study
    FitzGerald, LM ; Naeem, H ; Makalic, E ; Schmidt, DF ; Dowty, JG ; Joo, JE ; Jung, C-H ; Bassett, JK ; Dugue, P-A ; Chung, J ; Lonie, A ; Milne, RL ; Wong, EM ; Hopper, JL ; English, DR ; Severi, G ; Baglietto, L ; Pedersen, J ; Giles, GG ; Southey, MC (WILEY, 2017-04-01)
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    Genome-wide association study of peripheral blood DNA methylation and conventional mammographic density measures
    Li, S ; Dugue, P-A ; Baglietto, L ; Severi, G ; Wong, EM ; Nguyen, TL ; Stone, J ; English, DR ; Southey, MC ; Giles, GG ; Hopper, JL ; Milne, RL (WILEY, 2019-10-01)
    Age- and body mass index (BMI)-adjusted mammographic density is one of the strongest breast cancer risk factors. DNA methylation is a molecular mechanism that could underlie inter-individual variation in mammographic density. We aimed to investigate the association between breast cancer risk-predicting mammographic density measures and blood DNA methylation. For 436 women from the Australian Mammographic Density Twins and Sisters Study and 591 women from the Melbourne Collaborative Cohort Study, mammographic density (dense area, nondense area and percentage dense area) defined by the conventional brightness threshold was measured using the CUMULUS software, and peripheral blood DNA methylation was measured using the HumanMethylation450 (HM450) BeadChip assay. Associations between DNA methylation at >400,000 sites and mammographic density measures adjusted for age and BMI were assessed within each cohort and pooled using fixed-effect meta-analysis. Associations with methylation at genetic loci known to be associated with mammographic density were also examined. We found no genome-wide significant (p < 10-7 ) association for any mammographic density measure from the meta-analysis, or from the cohort-specific analyses. None of the 299 methylation sites located at genetic loci associated with mammographic density was associated with any mammographic density measure after adjusting for multiple testing (all p > 0.05/299 = 1.7 × 10-4 ). In summary, our study did not find evidence for associations between blood DNA methylation, as measured by the HM450 assay, and conventional mammographic density measures that predict breast cancer risk.
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    GWAS meta-analysis and replication identifies three new susceptibility loci for ovarian cancer
    Pharoah, PDP ; Tsai, Y-Y ; Ramus, SJ ; Phelan, CM ; Goode, EL ; Lawrenson, K ; Buckley, M ; Fridley, BL ; Tyrer, JP ; Shen, H ; Weber, R ; Karevan, R ; Larson, MC ; Song, H ; Tessier, DC ; Bacot, F ; Vincent, D ; Cunningham, JM ; Dennis, J ; Dicks, E ; Aben, KK ; Anton-Culver, H ; Antonenkova, N ; Armasu, SM ; Baglietto, L ; Bandera, EV ; Beckmann, MW ; Birrer, MJ ; Bloom, G ; Bogdanova, N ; Brenton, JD ; Brinton, LA ; Brooks-Wilson, A ; Brown, R ; Butzow, R ; Campbell, I ; Carney, ME ; Carvalho, RS ; Chang-Claude, J ; Chen, YA ; Chen, Z ; Chow, W-H ; Cicek, MS ; Coetzee, G ; Cook, LS ; Cramer, DW ; Cybulski, C ; Dansonka-Mieszkowska, A ; Despierre, E ; Doherty, JA ; Doerk, T ; du Bois, A ; Duerst, M ; Eccles, D ; Edwards, R ; Ekici, AB ; Fasching, PA ; Fenstermacher, D ; Flanagan, J ; Gao, Y-T ; Garcia-Closas, M ; Gentry-Maharaj, A ; Giles, G ; Gjyshi, A ; Gore, M ; Gronwald, J ; Guo, Q ; Halle, MK ; Harter, P ; Hein, A ; Heitz, F ; Hillemanns, P ; Hoatlin, M ; Hogdall, E ; Hogdall, CK ; Hosono, S ; Jakubowska, A ; Jensen, A ; Kalli, KR ; Karlan, BY ; Kelemen, LE ; Kiemeney, LA ; Kjaer, SK ; Konecny, GE ; Krakstad, C ; Kupryjanczyk, J ; Lambrechts, D ; Lambrechts, S ; Le, ND ; Lee, N ; Lee, J ; Leminen, A ; Lim, BK ; Lissowska, J ; Lubinski, J ; Lundvall, L ; Lurie, G ; Massuger, LFAG ; Matsuo, K ; McGuire, V ; McLaughlin, JR ; Menon, U ; Modugno, F ; Moysich, KB ; Nakanishi, T ; Narod, SA ; Ness, RB ; Nevanlinna, H ; Nickels, S ; Noushmehr, H ; Odunsi, K ; Olson, S ; Orlow, I ; Paul, J ; Pejovic, T ; Pelttari, LM ; Permuth-Wey, J ; Pike, MC ; Poole, EM ; Qu, X ; Risch, HA ; Rodriguez-Rodriguez, L ; Rossing, MA ; Rudolph, A ; Runnebaum, I ; Rzepecka, IK ; Salvesen, HB ; Schwaab, I ; Severi, G ; Shen, H ; Shridhar, V ; Shu, X-O ; Sieh, W ; Southey, MC ; Spellman, P ; Tajima, K ; Teo, S-H ; Terry, KL ; Thompson, PJ ; Timorek, A ; Tworoger, SS ; van Altena, AM ; van den Berg, D ; Vergote, I ; Vierkant, RA ; Vitonis, AF ; Wang-Gohrke, S ; Wentzensen, N ; Whittemore, AS ; Wik, E ; Winterhoff, B ; Woo, YL ; Wu, AH ; Yang, HP ; Zheng, W ; Ziogas, A ; Zulkifli, F ; Goodman, MT ; Hall, P ; Easton, DF ; Pearce, CL ; Berchuck, A ; Chenevix-Trench, G ; Iversen, E ; Monteiro, ANA ; Gayther, SA ; Schildkraut, JM ; Sellers, TA (NATURE PUBLISHING GROUP, 2013-04)
    Genome-wide association studies (GWAS) have identified four susceptibility loci for epithelial ovarian cancer (EOC), with another two suggestive loci reaching near genome-wide significance. We pooled data from a GWAS conducted in North America with another GWAS from the UK. We selected the top 24,551 SNPs for inclusion on the iCOGS custom genotyping array. We performed follow-up genotyping in 18,174 individuals with EOC (cases) and 26,134 controls from 43 studies from the Ovarian Cancer Association Consortium. We validated the two loci at 3q25 and 17q21 that were previously found to have associations close to genome-wide significance and identified three loci newly associated with risk: two loci associated with all EOC subtypes at 8q21 (rs11782652, P = 5.5 × 10(-9)) and 10p12 (rs1243180, P = 1.8 × 10(-8)) and another locus specific to the serous subtype at 17q12 (rs757210, P = 8.1 × 10(-10)). An integrated molecular analysis of genes and regulatory regions at these loci provided evidence for functional mechanisms underlying susceptibility and implicated CHMP4C in the pathogenesis of ovarian cancer.
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    Identification and molecular characterization of a new ovarian cancer susceptibility locus at 17q21.31
    Permuth-Wey, J ; Lawrenson, K ; Shen, HC ; Velkova, A ; Tyrer, JP ; Chen, Z ; Lin, H-Y ; Chen, YA ; Tsai, Y-Y ; Qu, X ; Ramus, SJ ; Karevan, R ; Lee, J ; Lee, N ; Larson, MC ; Aben, KK ; Anton-Culver, H ; Antonenkova, N ; Antoniou, AC ; Armasu, SM ; Bacot, F ; Baglietto, L ; Bandera, EV ; Barnholtz-Sloan, J ; Beckmann, MW ; Birrer, MJ ; Bloom, G ; Bogdanova, N ; Brinton, LA ; Brooks-Wilson, A ; Brown, R ; Butzow, R ; Cai, Q ; Campbell, I ; Chang-Claude, J ; Chanock, S ; Chenevix-Trench, G ; Cheng, JQ ; Cicek, MS ; Coetzee, GA ; Cook, LS ; Couch, FJ ; Cramer, DW ; Cunningham, JM ; Dansonka-Mieszkowska, A ; Despierre, E ; Doherty, JA ; Doerk, T ; du Bois, A ; Duerst, M ; Easton, DF ; Eccles, D ; Edwards, R ; Ekici, AB ; Fasching, PA ; Fenstermacher, DA ; Flanagan, JM ; Garcia-Closas, M ; Gentry-Maharaj, A ; Giles, GG ; Glasspool, RM ; Gonzalez-Bosquet, J ; Goodman, MT ; Gore, M ; Gorski, B ; Gronwald, J ; Hall, P ; Halle, MK ; Harter, P ; Heitz, F ; Hillemanns, P ; Hoatlin, M ; Hogdall, CK ; Hogdall, E ; Hosono, S ; Jakubowska, A ; Jensen, A ; Jim, H ; Kalli, KR ; Karlan, BY ; Kaye, SB ; Kelemen, LE ; Kiemeney, LA ; Kikkawa, F ; Konecny, GE ; Krakstad, C ; Kjaer, SK ; Kupryjanczyk, J ; Lambrechts, D ; Lambrechts, S ; Lancaster, JM ; Le, ND ; Leminen, A ; Levine, DA ; Liang, D ; Lim, BK ; Lin, J ; Lissowska, J ; Lu, KH ; Lubinski, J ; Lurie, G ; Massuger, LFAG ; Matsuo, K ; McGuire, V ; McLaughlin, JR ; Menon, U ; Modugno, F ; Moysich, KB ; Nakanishi, T ; Narod, SA ; Nedergaard, L ; Ness, RB ; Nevanlinna, H ; Nickels, S ; Noushmehr, H ; Odunsi, K ; Olson, SH ; Orlow, I ; Paul, J ; Pearce, CL ; Pejovic, T ; Pelttari, LM ; Pike, MC ; Poole, EM ; Raska, P ; Renner, SP ; Risch, HA ; Rodriguez-Rodriguez, L ; Rossing, MA ; Rudolph, A ; Runnebaum, IB ; Rzepecka, IK ; Salvesen, HB ; Schwaab, I ; Severi, G ; Shridhar, V ; Shu, X-O ; Shvetsov, YB ; Sieh, W ; Song, H ; Southey, MC ; Spiewankiewicz, B ; Stram, D ; Sutphen, R ; Teo, S-H ; Terry, KL ; Tessier, DC ; Thompson, PJ ; Tworoger, SS ; van Altena, AM ; Vergote, I ; Vierkant, RA ; Vincent, D ; Vitonis, AF ; Wang-Gohrke, S ; Weber, RP ; Wentzensen, N ; Whittemore, AS ; Wik, E ; Wilkens, LR ; Winterhoff, B ; Woo, YL ; Wu, AH ; Xiang, Y-B ; Yang, HP ; Zheng, W ; Ziogas, A ; Zulkifli, F ; Phelan, CM ; Iversen, E ; Schildkraut, JM ; Berchuck, A ; Fridley, BL ; Goode, EL ; Pharoah, PDP ; Monteiro, ANA ; Sellers, TA ; Gayther, SA (NATURE RESEARCH, 2013-03)
    Epithelial ovarian cancer (EOC) has a heritable component that remains to be fully characterized. Most identified common susceptibility variants lie in non-protein-coding sequences. We hypothesized that variants in the 3' untranslated region at putative microRNA (miRNA)-binding sites represent functional targets that influence EOC susceptibility. Here, we evaluate the association between 767 miRNA-related single-nucleotide polymorphisms (miRSNPs) and EOC risk in 18,174 EOC cases and 26,134 controls from 43 studies genotyped through the Collaborative Oncological Gene-environment Study. We identify several miRSNPs associated with invasive serous EOC risk (odds ratio=1.12, P=10(-8)) mapping to an inversion polymorphism at 17q21.31. Additional genotyping of non-miRSNPs at 17q21.31 reveals stronger signals outside the inversion (P=10(-10)). Variation at 17q21.31 is associated with neurological diseases, and our collaboration is the first to report an association with EOC susceptibility. An integrated molecular analysis in this region provides evidence for ARHGAP27 and PLEKHM1 as candidate EOC susceptibility genes.
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    Genome-wide association analysis identifies three new breast cancer susceptibility loci
    Ghoussaini, M ; Fletcher, O ; Michailidou, K ; Turnbull, C ; Schmidt, MK ; Dicks, E ; Dennis, J ; Wang, Q ; Humphreys, MK ; Luccarini, C ; Baynes, C ; Conroy, D ; Maranian, M ; Ahmed, S ; Driver, K ; Johnson, N ; Orr, N ; Silva, IDS ; Waisfisz, Q ; Meijers-Heijboer, H ; Uitterlinden, AG ; Rivadeneira, F ; Hall, P ; Czene, K ; Irwanto, A ; Liu, J ; Nevanlinna, H ; Aittomaki, K ; Blomqvist, C ; Meindl, A ; Schmutzler, RK ; Mueller-Myhsok, B ; Lichtner, P ; Chang-Claude, J ; Hein, R ; Nickels, S ; Flesch-Janys, D ; Tsimiklis, H ; Makalic, E ; Schmidt, D ; Bui, M ; Hopper, JL ; Apicella, C ; Park, DJ ; Southey, M ; Hunter, DJ ; Chanock, SJ ; Broeks, A ; Verhoef, S ; Hogervorst, FBL ; Fasching, PA ; Lux, MP ; Beckmann, MW ; Ekici, AB ; Sawyer, E ; Tomlinson, I ; Kerin, M ; Marme, F ; Schneeweiss, A ; Sohn, C ; Burwinkel, B ; Guenel, P ; Truong, T ; Cordina-Duverger, E ; Menegaux, F ; Bojesen, SE ; Nordestgaard, BG ; Nielsen, SF ; Flyger, H ; Milne, RL ; Rosario Alonso, M ; Gonzalez-Neira, A ; Benitez, J ; Anton-Culver, H ; Ziogas, A ; Bernstein, L ; Dur, CC ; Brenner, H ; Mueller, H ; Arndt, V ; Stegmaier, C ; Justenhoven, C ; Brauch, H ; Bruening, T ; Wang-Gohrke, S ; Eilber, U ; Doerk, T ; Schuermann, P ; Bremer, M ; Hillemanns, P ; Bogdanova, NV ; Antonenkova, NN ; Rogov, YI ; Karstens, JH ; Bermisheva, M ; Prokofieva, D ; Khusnutdinova, E ; Lindblom, A ; Margolin, S ; Mannermaa, A ; Kataja, V ; Kosma, V-M ; Hartikainen, JM ; Lambrechts, D ; Yesilyurt, BT ; Floris, G ; Leunen, K ; Manoukian, S ; Bonanni, B ; Fortuzzi, S ; Peterlongo, P ; Couch, FJ ; Wang, X ; Stevens, K ; Lee, A ; Giles, GG ; Baglietto, L ; Severi, G ; McLean, C ; Alnaes, GG ; Kristensen, V ; Borrensen-Dale, A-L ; John, EM ; Miron, A ; Winqvist, R ; Pylkas, K ; Jukkola-Vuorinen, A ; Kauppila, S ; Andrulis, IL ; Glendon, G ; Mulligan, AM ; Devilee, P ; van Asperen, CJ ; Tollenaar, RAEM ; Seynaeve, C ; Figueroa, JD ; Garcia-Closas, M ; Brinton, L ; Lissowska, J ; Hooning, MJ ; Hollestelle, A ; Oldenburg, RA ; van den Ouweland, AMW ; Cox, A ; Reed, MWR ; Shah, M ; Jakubowska, A ; Lubinski, J ; Jaworska, K ; Durda, K ; Jones, M ; Schoemaker, M ; Ashworth, A ; Swerdlow, A ; Beesley, J ; Chen, X ; Muir, KR ; Lophatananon, A ; Rattanamongkongul, S ; Chaiwerawattana, A ; Kang, D ; Yoo, K-Y ; Noh, D-Y ; Shen, C-Y ; Yu, J-C ; Wu, P-E ; Hsiung, C-N ; Perkins, A ; Swann, R ; Velentzis, L ; Eccles, DM ; Tapper, WJ ; Gerty, SM ; Graham, NJ ; Ponder, BAJ ; Chenevix-Trench, G ; Pharoah, PDP ; Lathrop, M ; Dunning, AM ; Rahman, N ; Peto, J ; Easton, DF (NATURE PUBLISHING GROUP, 2012-03)
    Breast cancer is the most common cancer among women. To date, 22 common breast cancer susceptibility loci have been identified accounting for ∼8% of the heritability of the disease. We attempted to replicate 72 promising associations from two independent genome-wide association studies (GWAS) in ∼70,000 cases and ∼68,000 controls from 41 case-control studies and 9 breast cancer GWAS. We identified three new breast cancer risk loci at 12p11 (rs10771399; P = 2.7 × 10(-35)), 12q24 (rs1292011; P = 4.3 × 10(-19)) and 21q21 (rs2823093; P = 1.1 × 10(-12)). rs10771399 was associated with similar relative risks for both estrogen receptor (ER)-negative and ER-positive breast cancer, whereas the other two loci were associated only with ER-positive disease. Two of the loci lie in regions that contain strong plausible candidate genes: PTHLH (12p11) has a crucial role in mammary gland development and the establishment of bone metastasis in breast cancer, and NRIP1 (21q21) encodes an ER cofactor and has a role in the regulation of breast cancer cell growth.
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    Evaluation of variation in the phosphoinositide-3-kinase catalytic subunit alpha oncogene and breast cancer risk
    Stevens, KN ; Garcia-Closas, M ; Fredericksen, Z ; Kosel, M ; Pankratz, VS ; Hopper, JL ; Dite, GS ; Apicella, C ; Southey, MC ; Schmidt, MK ; Broeks, A ; Van 't Veer, LJ ; Tollenaar, RAEM ; Fasching, PA ; Beckmann, MW ; Hein, A ; Ekici, AB ; Johnson, N ; Peto, J ; Silva, IDS ; Gibson, L ; Sawyer, E ; Tomlinson, I ; Kerin, MJ ; Chanock, S ; Lissowska, J ; Hunter, DJ ; Hoover, RN ; Thomas, GD ; Milne, RL ; Perez, JIA ; Gonzalez-Neira, A ; Benitez, J ; Burwinkel, B ; Meindl, A ; Schmutzler, RK ; Bartrar, CR ; Hamann, U ; Ko, YD ; Bruening, T ; Chang-Claude, J ; Hein, R ; Wang-Gohrke, S ; Doerk, T ; Schuermann, P ; Bremer, M ; Hillemanns, P ; Bogdanova, N ; Zalutsky, JV ; Rogov, YI ; Antonenkova, N ; Lindblom, A ; Margolin, S ; Mannermaa, A ; Kataja, V ; Kosma, V-M ; Hartikainen, J ; Chenevix-Trench, G ; Chen, X ; Peterlongo, P ; Bonanni, B ; Bernard, L ; Manoukian, S ; Wang, X ; Cerhan, J ; Vachon, CM ; Olson, J ; Giles, GG ; Baglietto, L ; McLean, CA ; Severi, G ; John, EM ; Miron, A ; Winqvist, R ; Pylkaes, K ; Jukkola-Vuorinen, A ; Grip, M ; Andrulis, I ; Knight, JA ; Glendon, G ; Mulligan, AM ; Cox, A ; Brock, IW ; Elliott, G ; Cross, SS ; Pharoah, PP ; Dunning, AM ; Pooley, KA ; Humphreys, MK ; Wang, J ; Kang, D ; Yoo, K-Y ; Noh, D-Y ; Sangrajrang, S ; Gabrieau, V ; Brennan, P ; Mckay, J ; Anton-Culver, H ; Ziogas, A ; Couch, FJ ; Easton, DF (NATURE PUBLISHING GROUP, 2011-12-06)
    BACKGROUND: Somatic mutations in phosphoinositide-3-kinase catalytic subunit alpha (PIK3CA) are frequent in breast tumours and have been associated with oestrogen receptor (ER) expression, human epidermal growth factor receptor-2 overexpression, lymph node metastasis and poor survival. The goal of this study was to evaluate the association between inherited variation in this oncogene and risk of breast cancer. METHODS: A single-nucleotide polymorphism from the PIK3CA locus that was associated with breast cancer in a study of Caucasian breast cancer cases and controls from the Mayo Clinic (MCBCS) was genotyped in 5436 cases and 5280 controls from the Cancer Genetic Markers of Susceptibility (CGEMS) study and in 30 949 cases and 29 788 controls from the Breast Cancer Association Consortium (BCAC). RESULTS: Rs1607237 was significantly associated with a decreased risk of breast cancer in MCBCS, CGEMS and all studies of white Europeans combined (odds ratio (OR)=0.97, 95% confidence interval (CI) 0.95-0.99, P=4.6 × 10(-3)), but did not reach significance in the BCAC replication study alone (OR=0.98, 95% CI 0.96-1.01, P=0.139). CONCLUSION: Common germline variation in PIK3CA does not have a strong influence on the risk of breast cancer.
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    Plasma concentration of Propionibacterium acnes antibodies and prostate cancer risk: results from an Australian population-based case-control study
    Severi, G ; Shannon, BA ; Hoang, HN ; Baglietto, L ; English, DR ; Hopper, JL ; Pedersen, J ; Southey, MC ; Sinclair, R ; Cohen, RJ ; Giles, GG (NATURE PUBLISHING GROUP, 2010-07-27)
    BACKGROUND: Recent studies in prostatic tissue suggest that Propionibacterium acnes (P. acnes), a bacterium associated with acne that normally lives on the skin, is the most prevalent bacterium in the prostate and in men with benign prostatic hyperplasia. Its prevalence is higher in samples from patients subsequently diagnosed with prostate cancer. The aim of our study was to test whether circulating levels of P. acnes antibodies are associated with prostate cancer risk and tumour characteristics using plasma samples from a population-based case-control study. METHODS: We measured plasma concentration of P. acnes antibodies for 809 cases and 584 controls using a recently developed ELISA assay. We compared antibody titres between cases and controls using unconditional logistic regression adjusted for batch and variables associated with the study design (i.e., age, year of selection and centre). The primary analysis included P. acnes titres in the model as a dichotomous variable using the median value for controls as the cut-off value. RESULTS: P. acnes antibody titres for both cases and controls ranged from 1 : 16 (i.e., low concentration) to 1 : 65,536 (i.e., high concentration; median value=1 : 1024). The odds ratio for prostate cancer associated with titres at or above the median value was 0.73 (95% CI 0.58-0.91, P=0.005). The association appeared to be particularly strong for advanced prostate cancer (AJCC Stage grouping III-IV) for which the odds ratio was 0.59 (95% CI 0.43-0.81, P=0.001) but there was insufficient evidence that the association differed by tumour stage (p heterogeneity=0.07). CONCLUSION: These results need to be confirmed in prospective studies but they are consistent with the hypothesis that P. acnes has a role in prostate cancer.
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    Subtyping of Breast Cancer by Immunohistochemistry to Investigate a Relationship between Subtype and Short and Long Term Survival: A Collaborative Analysis of Data for 10,159 Cases from 12 Studies
    Blows, FM ; Driver, KE ; Schmidt, MK ; Broeks, A ; van Leeuwen, FE ; Wesseling, J ; Cheang, MC ; Gelmon, K ; Nielsen, TO ; Blomqvist, C ; Heikkila, P ; Heikkinen, T ; Nevanlinna, H ; Akslen, LA ; Begin, LR ; Foulkes, WD ; Couch, FJ ; Wang, X ; Cafourek, V ; Olson, JE ; Baglietto, L ; Giles, GG ; Severi, G ; McLean, CA ; Southey, MC ; Rakha, E ; Green, AR ; Ellis, IO ; Sherman, ME ; Lissowska, J ; Anderson, WF ; Cox, A ; Cross, SS ; Reed, MWR ; Provenzano, E ; Dawson, S-J ; Dunning, AM ; Humphreys, M ; Easton, DF ; Garcia-Closas, M ; Caldas, C ; Pharoah, PD ; Huntsman, D ; Marincola, FM (PUBLIC LIBRARY SCIENCE, 2010-05)
    BACKGROUND: Immunohistochemical markers are often used to classify breast cancer into subtypes that are biologically distinct and behave differently. The aim of this study was to estimate mortality for patients with the major subtypes of breast cancer as classified using five immunohistochemical markers, to investigate patterns of mortality over time, and to test for heterogeneity by subtype. METHODS AND FINDINGS: We pooled data from more than 10,000 cases of invasive breast cancer from 12 studies that had collected information on hormone receptor status, human epidermal growth factor receptor-2 (HER2) status, and at least one basal marker (cytokeratin [CK]5/6 or epidermal growth factor receptor [EGFR]) together with survival time data. Tumours were classified as luminal and nonluminal tumours according to hormone receptor expression. These two groups were further subdivided according to expression of HER2, and finally, the luminal and nonluminal HER2-negative tumours were categorised according to expression of basal markers. Changes in mortality rates over time differed by subtype. In women with luminal HER2-negative subtypes, mortality rates were constant over time, whereas mortality rates associated with the luminal HER2-positive and nonluminal subtypes tended to peak within 5 y of diagnosis and then decline over time. In the first 5 y after diagnosis the nonluminal tumours were associated with a poorer prognosis, but over longer follow-up times the prognosis was poorer in the luminal subtypes, with the worst prognosis at 15 y being in the luminal HER2-positive tumours. Basal marker expression distinguished the HER2-negative luminal and nonluminal tumours into different subtypes. These patterns were independent of any systemic adjuvant therapy. CONCLUSIONS: The six subtypes of breast cancer defined by expression of five markers show distinct behaviours with important differences in short term and long term prognosis. Application of these markers in the clinical setting could have the potential to improve the targeting of adjuvant chemotherapy to those most likely to benefit. The different patterns of mortality over time also suggest important biological differences between the subtypes that may result in differences in response to specific therapies, and that stratification of breast cancers by clinically relevant subtypes in clinical trials is urgently required.
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    Heterogeneity of breast cancer associations with five susceptibility loci by clinical and pathological characteristics
    Garcia-Closas, M ; Hall, P ; Nevanlinna, H ; Pooley, K ; Morrison, J ; Richesson, DA ; Bojesen, SE ; Nordestgaard, BG ; Axelsson, CK ; Arias, JI ; Milne, RL ; Ribas, G ; Gonzalez-Neira, A ; Benitez, J ; Zamora, P ; Brauch, H ; Justenhoven, C ; Hamann, U ; Ko, Y-D ; Bruening, T ; Haas, S ; Doerk, T ; Schuermann, P ; Hillemanns, P ; Bogdanova, N ; Bremer, M ; Karstens, JH ; Fagerholm, R ; Aaltonen, K ; Aittomaki, K ; Von Smitten, K ; Blomqvist, C ; Mannermaa, A ; Uusitupa, M ; Eskelinen, M ; Tengstrom, M ; Kosma, V-M ; Kataja, V ; Chenevix-Trench, G ; Spurdle, AB ; Beesley, J ; Chen, X ; Devilee, P ; Van Asperen, CJ ; Jacobi, CE ; Tollenaar, RAEM ; Huijts, PEA ; Klijn, JGM ; Chang-Claude, J ; Kropp, S ; Slanger, T ; Flesch-Janys, D ; Mutschelknauss, E ; Salazar, R ; Wang-Gohrke, S ; Couch, F ; Goode, EL ; Olson, JE ; Vachon, C ; Fredericksen, ZS ; Giles, GG ; Baglietto, L ; Severi, G ; Hopper, JL ; English, DR ; Southey, MC ; Haiman, CA ; Henderson, BE ; Kolonel, LN ; Le Marchand, L ; Stram, DO ; Hunter, DJ ; Hankinson, SE ; Cox, DG ; Tamimi, R ; Kraft, P ; Sherman, ME ; Chanock, SJ ; Lissowska, J ; Brinton, LA ; Peplonska, B ; Klijn, JGM ; Hooning, MJ ; Meijers-Heijboer, H ; Collee, JM ; Van den Ouweland, A ; Uitterlinden, AG ; Liu, J ; Lin, LY ; Yuqing, L ; Humphreys, K ; Czene, K ; Cox, A ; Balasubramanian, SP ; Cross, SS ; Reed, MWR ; Blows, F ; Driver, K ; Dunning, A ; Tyrer, J ; Ponder, BAJ ; Sangrajrang, S ; Brennan, P ; Mckay, J ; Odefrey, F ; Gabrieau, V ; Sigurdson, A ; Doody, M ; Struewing, JP ; Alexander, B ; Easton, DF ; Pharoah, PD ; Leal, SM (PUBLIC LIBRARY SCIENCE, 2008-04)
    A three-stage genome-wide association study recently identified single nucleotide polymorphisms (SNPs) in five loci (fibroblast growth receptor 2 (FGFR2), trinucleotide repeat containing 9 (TNRC9), mitogen-activated protein kinase 3 K1 (MAP3K1), 8q24, and lymphocyte-specific protein 1 (LSP1)) associated with breast cancer risk. We investigated whether the associations between these SNPs and breast cancer risk varied by clinically important tumor characteristics in up to 23,039 invasive breast cancer cases and 26,273 controls from 20 studies. We also evaluated their influence on overall survival in 13,527 cases from 13 studies. All participants were of European or Asian origin. rs2981582 in FGFR2 was more strongly related to ER-positive (per-allele OR (95%CI) = 1.31 (1.27-1.36)) than ER-negative (1.08 (1.03-1.14)) disease (P for heterogeneity = 10(-13)). This SNP was also more strongly related to PR-positive, low grade and node positive tumors (P = 10(-5), 10(-8), 0.013, respectively). The association for rs13281615 in 8q24 was stronger for ER-positive, PR-positive, and low grade tumors (P = 0.001, 0.011 and 10(-4), respectively). The differences in the associations between SNPs in FGFR2 and 8q24 and risk by ER and grade remained significant after permutation adjustment for multiple comparisons and after adjustment for other tumor characteristics. Three SNPs (rs2981582, rs3803662, and rs889312) showed weak but significant associations with ER-negative disease, the strongest association being for rs3803662 in TNRC9 (1.14 (1.09-1.21)). rs13281615 in 8q24 was associated with an improvement in survival after diagnosis (per-allele HR = 0.90 (0.83-0.97). The association was attenuated and non-significant after adjusting for known prognostic factors. Our findings show that common genetic variants influence the pathological subtype of breast cancer and provide further support for the hypothesis that ER-positive and ER-negative disease are biologically distinct. Understanding the etiologic heterogeneity of breast cancer may ultimately result in improvements in prevention, early detection, and treatment.