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Bull CJ, Bonilla C, Holly JMP, Perks CM, Davies N, Haycock P, Yu OHY, Richards JB, Eeles R, Easton D, Kote‐Jarai Z, Amin Al Olama A, Benlloch S, Muir K, Giles GG, MacInnis RJ, Wiklund F, Gronberg H, Haiman CA, Schleutker J, Nordestgaard BG, Travis RC, Neal D, Pashayan N, Khaw K, Stanford JL, Blot WJ, Thibodeau S, Maier C, Kibel AS, Cybulski C, Cannon‐Albright L, Brenner H, Park J, Kaneva R, Batra J, Teixeira MR, Micheal A, Pandha H, Smith GD, Lewis SJ, Martin RM. Blood lipids and prostate cancer: a Mendelian randomization analysis. Cancer Med 2016; 5:1125-36. [PMID: 26992435 PMCID: PMC4924371 DOI: 10.1002/cam4.695] [Citation(s) in RCA: 61] [Impact Index Per Article: 7.6] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/13/2015] [Revised: 02/03/2016] [Accepted: 02/08/2016] [Indexed: 12/14/2022] Open
Abstract
Genetic risk scores were used as unconfounded instruments for specific lipid traits (Mendelian randomization) to assess whether circulating lipids causally influence prostate cancer risk. Data from 22,249 prostate cancer cases and 22,133 controls from 22 studies within the international PRACTICAL consortium were analyzed. Allele scores based on single nucleotide polymorphisms (SNPs) previously reported to be uniquely associated with each of low-density lipoprotein (LDL), high-density lipoprotein (HDL), and triglyceride (TG) levels, were first validated in an independent dataset, and then entered into logistic regression models to estimate the presence (and direction) of any causal effect of each lipid trait on prostate cancer risk. There was weak evidence for an association between the LDL genetic score and cancer grade: the odds ratio (OR) per genetically instrumented standard deviation (SD) in LDL, comparing high- (≥7 Gleason score) versus low-grade (<7 Gleason score) cancers was 1.50 (95% CI: 0.92, 2.46; P = 0.11). A genetically instrumented SD increase in TGs was weakly associated with stage: the OR for advanced versus localized cancer per unit increase in genetic risk score was 1.68 (95% CI: 0.95, 3.00; P = 0.08). The rs12916-T variant in 3-hydroxy-3-methylglutaryl-CoA reductase (HMGCR) was inversely associated with prostate cancer (OR: 0.97; 95% CI: 0.94, 1.00; P = 0.03). In conclusion, circulating lipids, instrumented by our genetic risk scores, did not appear to alter prostate cancer risk. We found weak evidence that higher LDL and TG levels increase aggressive prostate cancer risk, and that a variant in HMGCR (that mimics the LDL lowering effect of statin drugs) reduces risk. However, inferences are limited by sample size and evidence of pleiotropy.
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Mogilevkina I, Jani P, Aboutanos M, Bedada A, Ajuzieogu O, Nasir A, Muchemwa F, Bekele A, Holmer H, Ddungu R, Singh K, Ingabire J, Swaroop M, Ogundele J, Ajiko M, Bush C, Ajuzieogu O, Malemo K, Pemberton J, Livingston M, Nagengast E, Skelton T, Nsereko E, Razek T, Hackenberg B, Twagirumugabe T, Elobu A, Ajuzieogu O, Allen Ingabire JC, Wandwi W, Mwizerwa O, Abdur-Rahman L, Makama J, Ademola S, Ogundele J, Abdur-Rahman L, Lymburner E, Esau D, Bos C, Bos C, Rothstein D, Nikolaou S, Rajkumar S, Westerholm J, Culp A, Baison G, Ong C, Knapp G, Klimovytskyiy F, Prudnikov Y, Jayaraman S, Mata L, Mora F, Ordóñez C, Pino L, Quiodettis M, Morales. C, Hsiao M, Bakanisi B, Motsumi J, Azzie. G, Achi J, Amucheazi A, Ikeani. C, Abdur-Rahman L, Oyedepo O, Arowona L, Alonge D, Rufai Z, Adeniran J, Abraham M, Olatinwo. A, Tadesse A, Gillies R, Meara J, Liljestrand J, Oyerinde K, Hagander. L, Namuddu R, Nakonde I, Mukasa. R, Marbaniang D, Byiringiro J, Calland J, Petrose R, Jayaraman S, Ntakiyiruta. G, Schuetz S, Iss N, Laguna M, Shapiro M, Gallardo. J, Ifesanya A, Riviello E, Irakiza J, Mvukiyehe J, Maine R, Kim W, Manirakiza F, Reshamwalla S, Mwumvaneza T, Kymanaywa P, Ntakiyiruta G, Kiviri W, Finlayson S, Berry W, Twagirumugabe. T, Amucheazi A, Achi J, Ezike H, Salmon M, Salmon C, Mutendi M, Reynolds. T, Frankfurter C, Cameron B, Poenaru D, D’Cruz J, Pemberton J, Ozgediz D, Poenaru. D, Caterson E, Magee W, Hatcher K, Ramos M, Campbell. A, Nshimyumuremyi I, Livingston P, Zolpys L, Mukwesi C, Uwineza. B, Evans. F, Marquis C, Linois-Davidson C, Ramos M, Campbell A, Resch S, Finlayson S, Howaldt H, Caterson. E, Irakiza J, Mvukiyehe J, Maine R, Bush C, Riviello E, Kim W, Manirakiza F, Reshamwalla S, Mwumvaneza T, Kymanaywa P, Ntakiyiruta G, Kiviri W, Finlayson S, Berry. W, Amucheazi A, Achi J, Ikeani. C, Ssebufu R, Kyamanywa P, Bayisenga J, Bikoroti J, Mazimpaka. D, Mpoki U, Muleshe S, Zwane. S, Calland J, Byiringiro J, Ntakiyiruta. G, Nasir A, Adeniran J, Bamigbola K, Irribhogbe P, Ameh. E, Olawoye O, Iyun A, Micheal A, Oluwatosin. O, Adebayo R, Abdulraheem N, Nasir A, Adeniran. J, Cameron B, Ho P, Blair G, Duffy D, O’Hara N, Ajiko M, Kapoor. V, Westerholm. J, Westerholm. J, Baron E, Herard P, Lassalle X, Teicher. C, Maraka J, Asige E, Owori F, Obaikol. R, Maine R, Nsengiyumva E, Ntakiyiruta G, Mubiligi J, Riviello R, Havugimana. J, Chavarri A, Meara J, Pyda J, Shulman L, Damuse R, Pierre. J, Hoogerboord M, Ernest A, Gesase. A. Abstracts of the 13th Bethune Round Table Conference on International Surgery. May 10-11, 2013. Vancouver, British Columbia, Canada. Can J Surg 2013; 56:S44-52. [PMID: 23883512 DOI: 10.1503/cjs.015713] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/01/2022] Open
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