Journal of International Oncology››2014,Vol. 41››Issue (2): 120-123.doi:10.3760/cma.j.issn.1673-422X.2014.02.013
Previous ArticlesNext Articles
Zhang Yanling, Ren Guoping
Received:2013-09-11Revised:2013-12-04Online:2014-02-08Published:2014-01-26Contact:Ren Guoping E-mail:gpren2002@163.comZhang Yanling, Ren Guoping. Genetic differences of prostate cancer between Eastern and Western population[J]. Journal of International Oncology, 2014, 41(2): 120-123.
| [1] Jemal A, Bray F, Center MM, et al. Global cancer statistics[J].CA Cancer J Clin, 2011, 61(2):69-90. [2] Klein EA, Silverman R. Inflammation, infection, and prostate cancer[J]. Curr Opin Urol, 2008, 18(3):315-319. [3] Robbins CM, Hernandez W, Ahaghotu C, et al. Association of HPC2/ELAC2 and RNASEL nonsynonymous variants with prostate cancer risk in African American familial and sporadic cases[J]. Prostate, 2008, 68 (16):1790-1797. [4] Rennert H, ZeiglerJohnson CM, Addya K, et al. Association of susceptibility alleles in ELAC2/HPC2, RNASEL/HPC1, and MSR1 with prostate cancer severity in European American and African American men[J]. Cancer Epidemiol Biomarkers Prev, 2005, 14(4):949-957. [5] Shook SJ, Beuten J, Torkko KC, et al. Association of RNASEL variants with prostate cancer risk in Hispanic Caucasians and African Americans[J]. Clin Cancer Res, 2007, 13(19):5959-5964. [6] Nakazato H, Suzuki K, Matsui H, et al. Role of genetic polymorphisms of the RNASEL gene on familial prostate cancer risk in a Japanese population[J]. Br J Cancer, 2003, 89(4):691-696. [7] Tavtigian SV, Simard J, Teng DH, et al. A candidate prostate cancer susceptibility gene at chromosome 17p[J]. Nat Genet, 2001, 27(2):172-180. [8] Wang L, McDonnell SK, Elkins DA, et al. Role of HPC2/ELAC2 in hereditary prostate cancer[J]. Cancer Res, 2001, 61(17):6494-6499. [9] Xu B, Tong N, Li JM, et al. ELAC2 polymorphisms and prostate cancer risk: a metaanalysis based on 18 casecontrol studies[J]. Prostate Cancer Prostatic Dis, 2010, 13(3):270-277. [10] Mao X, Yu Y, Boyd LK, et al. Distinct genomic alterations in prostate cancers in Chinese and Western populations suggest alternative pathways of prostate carcinogenesis[J]. Cancer Res, 2010, 70(13):5207-5212. [11] Liu W, Chang B, Sauvageot J, et al. Comprehensive assessment of DNA copy number alterations in human prostate cancers using Affymetrix 100KSNP mapping array[J]. Genes Chromosomes Cancer, 2006, 45(11):1018-1032. [12] Haiman CA, Stram DO, Cheng I, et al. Common genetic variation at PTEN and risk of sporadic breast and prostate cancer[J]. Cancer Epidemiol Biomarkers Prev, 2006, 15(5):1021-1025. [13] Xu J, Zheng SL, Komiya A, et al. Germline mutations and sequence variants of the macrophage scavenger receptor 1 gene are associated with prostate cancer risk[J]. Nat Genet, 2002, 32(2):321-325. [14] Seppl EH, Ikonen T, Autio V, et al. Germline alterations in MSR1 gene and prostate cancer risk[J]. Clin Cancer Res, 2003, 9(14):5252-5256. [15] Sun J, Hsu FC, Turner AR, et al. Metaanalysis of association of rare mutations and common sequence variants in the MSR1 gene and prostate cancer risk[J]. Prostate, 2006, 66(7):728-737. [16] Ren S, Peng Z, Mao JH, et al. RNAseq analysis of prostate cancer in the Chinese population identifies recurrent gene fusions, cancerassociated long noncoding RNAs and aberrant alternative splicings[J]. Cell Res, 2012, 22(5):806-821. [17] Mosquera JM, Mehra R, Regan MM, et al. Prevalence of TMPRSS2ERG fusion prostate cancer among men undergoing prostate biopsy in the United States[J]. Clin Cancer Res, 2009, 15(14):4706-4711. [18] Miyagi Y, Sasaki T, Fujinami K, et al. ETS familyassociated gene fusions in Japanese prostate cancer: analysis of 194 radical prostatectomy samples[J]. Mod Pathol, 2010, 23(11):1492-1498. [19] MagiGalluzzi C, Tsusuki T, Elson P, et al. TMPRSS2ERG gene fusion prevalence and class are significantly different in prostate cancer of Caucasian, AfricanAmerican and Japanese patients[J]. Prostate, 2011, 71(5):489-497. [20] Perner S, Demichelis F, Beroukhim R, et al. TMPRSS2:ERG fusionassociated deletions provide insight into the heterogeneity of prostate cancer[J]. Cancer Res, 2006, 66(17): 8337-8341. [21] Fine SW, Gopalan A, Leversha MA, et al. TMPRSS2ERG gene fusion is associated with low Gleason scores and not with highgrade morphological features[J]. Mod Pathol, 2010, 23(10):1325-1333. [22] Demichelis F, Fall K, Perner S, et al. TMPRSS2: ERG gene fusion associated with lethal prostate cancer in a watchful waiting cohort[J]. Oncogene, 2007, 26(31):4596-4599. [23] Winnes M, Lissbrant E, Damber JE, et al. Molecular genetic analyses of the TMPRSS2ERG and TMPRSS2ETV1 gene fusions in 50 cases of prostate cancer[J]. Oncol Rep, 2007, 17(5):1033-1036. [24] Yoshimoto M, Joshua AM, Cunha IW, et al. Absence of TMPRSS2:ERG fusions and PTEN losses in prostate cancer is associated with a favorable outcome[J]. Mod Pathol, 2008, 21(12):1451-1460. [25] Gopalan A, Leversha MA, Satagopan JM, et al. TMPRSS2ERG gene fusion is not associated with outcome in patients treated by prostatectomy[J]. Cancer Res, 2009, 69(4):1400-1406. |
| No related articles found! |
| Viewed | ||||||
| Full text |
|
|||||
| Abstract |
|
|||||
