Terms: = Prostate cancer AND TMPRSS2, PRSS10, 7113, ENSG00000184012, O15393 AND Clinical Outcome
24 results:
1. Loss of feedback regulation between FAM3B and androgen receptor driving prostate cancer progression.
Ma T; Jin L; Bai S; Liu Z; Wang S; Shen B; Cho Y; Cao S; Sun MJS; Fazli L; Zhang D; Wedderburn C; Zhang DY; Mugon G; Ungerleider N; Baddoo M; Zhang K; Schiavone LH; Burkhardt BR; Fan J; You Z; Flemington EK; Dong X; Dong Y
J Natl Cancer Inst; 2024 Mar; 116(3):421-433. PubMed ID: 37847647
[TBL] [Abstract] [Full Text] [Related]
2. Androgen-deprivation therapies for prostate cancer and risk of infection by SARS-CoV-2: a population-based study (N = 4532).
Montopoli M; Zumerle S; Vettor R; Rugge M; Zorzi M; Catapano CV; Carbone GM; Cavalli A; Pagano F; Ragazzi E; Prayer-Galetti T; Alimonti A
Ann Oncol; 2020 Aug; 31(8):1040-1045. PubMed ID: 32387456
[TBL] [Abstract] [Full Text] [Related]
3. Neuropilin-2 is an independent prognostic factor for shorter cancer-specific survival in patients with acinar adenocarcinoma of the prostate.
Borkowetz A; Froehner M; Rauner M; Conrad S; Erdmann K; Mayr T; Datta K; Hofbauer LC; Baretton GB; Wirth M; Fuessel S; Toma M; Muders MH
Int J Cancer; 2020 May; 146(9):2619-2627. PubMed ID: 31509606
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4. High throughput differential identification of tmprss2-ERG fusion genes in prostate cancer patient urine.
Lee H; Lee D; Park JH; Song SH; Jeong IG; Kim CS; Searson PC; Lee KH
Biomaterials; 2017 Aug; 135():23-29. PubMed ID: 28478327
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5. High alpha-methylacyl-CoA racemase (AMACR) is associated with ERG expression and with adverse clinical outcome in patients with localized prostate cancer.
Box A; Alshalalfa M; Hegazy SA; Donnelly B; Bismar TA
Tumour Biol; 2016 Sep; 37(9):12287-12299. PubMed ID: 27271990
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6. IL-6 Overexpression in ERG-Positive prostate cancer Is Mediated by Prostaglandin Receptor EP2.
Merz C; von Mässenhausen A; Queisser A; Vogel W; Andrén O; Kirfel J; Duensing S; Perner S; Nowak M
Am J Pathol; 2016 Apr; 186(4):974-84. PubMed ID: 27012192
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7. DNA alterations in the tumor genome and their associations with clinical outcome in prostate cancer.
Liu W
Asian J Androl; 2016; 18(4):533-42. PubMed ID: 26975494
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8. Plasma genetic and genomic abnormalities predict treatment response and clinical outcome in advanced prostate cancer.
Xia S; Kohli M; Du M; Dittmar RL; Lee A; Nandy D; Yuan T; Guo Y; Wang Y; Tschannen MR; Worthey E; Jacob H; See W; Kilari D; Wang X; Hovey RL; Huang CC; Wang L
Oncotarget; 2015 Jun; 6(18):16411-21. PubMed ID: 25915538
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9. tmprss2-ERG gene fusion in prostate cancer.
Burdova A; Bouchal J; Tavandzis S; Kolar Z
Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub; 2014 Dec; 158(4):502-10. PubMed ID: 25485532
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10. Genomic, pathological, and clinical heterogeneity as drivers of personalized medicine in prostate cancer.
Fraser M; Berlin A; Bristow RG; van der Kwast T
Urol Oncol; 2015 Feb; 33(2):85-94. PubMed ID: 24768356
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11. A 36-gene signature predicts clinical progression in a subgroup of ERG-positive prostate cancers.
Gasi Tandefelt D; Boormans JL; van der Korput HA; Jenster GW; Trapman J
Eur Urol; 2013 Dec; 64(6):941-50. PubMed ID: 23490727
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12. Intraductal carcinoma of the prostate: precursor or aggressive phenotype of prostate cancer?
Bonkhoff H; Wheeler TM; van der Kwast TH; Magi-Galluzzi C; Montironi R; Cohen RJ
Prostate; 2013 Mar; 73(4):442-8. PubMed ID: 22949099
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13. Genes differentially expressed in the peripheral zone compared to the transitional zone of the normal human prostate and their potential regulation by ETS factors.
Adler D; Lindstrot A; Ellinger J; Rogenhofer S; Buettner R; Wernert N
Mol Med Rep; 2012 Jan; 5(1):32-6. PubMed ID: 21993862
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14. ERG status is unrelated to PSA recurrence in radically operated prostate cancer in the absence of antihormonal therapy.
Minner S; Enodien M; Sirma H; Luebke AM; Krohn A; Mayer PS; Simon R; Tennstedt P; Müller J; Scholz L; Brase JC; Liu AY; Schlüter H; Pantel K; Schumacher U; Bokemeyer C; Steuber T; Graefen M; Sauter G; Schlomm T
Clin Cancer Res; 2011 Sep; 17(18):5878-88. PubMed ID: 21791629
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15. Relative 8q gain predicts disease-specific survival irrespective of the tmprss2-ERG fusion status in diagnostic biopsies of prostate cancer.
Barros-Silva JD; Ribeiro FR; Rodrigues A; Cruz R; Martins AT; Jerónimo C; Henrique R; Teixeira MR
Genes Chromosomes Cancer; 2011 Aug; 50(8):662-71. PubMed ID: 21584900
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16. Integrative genomic profiling of human prostate cancer.
Taylor BS; Schultz N; Hieronymus H; Gopalan A; Xiao Y; Carver BS; Arora VK; Kaushik P; Cerami E; Reva B; Antipin Y; Mitsiades N; Landers T; Dolgalev I; Major JE; Wilson M; Socci ND; Lash AE; Heguy A; Eastham JA; Scher HI; Reuter VE; Scardino PT; Sander C; Sawyers CL; Gerald WL
Cancer Cell; 2010 Jul; 18(1):11-22. PubMed ID: 20579941
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17. Prevalence of tmprss2-ERG and SLC45A3-ERG gene fusions in a large prostatectomy cohort.
Esgueva R; Perner S; J LaFargue C; Scheble V; Stephan C; Lein M; Fritzsche FR; Dietel M; Kristiansen G; Rubin MA
Mod Pathol; 2010 Apr; 23(4):539-46. PubMed ID: 20118910
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18. ETS gene fusions in prostate cancer.
Clark JP; Cooper CS
Nat Rev Urol; 2009 Aug; 6(8):429-39. PubMed ID: 19657377
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19. The discovery of common recurrent transmembrane protease serine 2 (tmprss2)-erythroblastosis virus E26 transforming sequence (ETS) gene fusions in prostate cancer: significance and clinical implications.
Shah RB; Chinnaiyan AM
Adv Anat Pathol; 2009 May; 16(3):145-53. PubMed ID: 19395877
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20. Concepts of epigenetics in prostate cancer development.
Cooper CS; Foster CS
Br J Cancer; 2009 Jan; 100(2):240-5. PubMed ID: 19002169
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