Terms: = Prostate cancer AND SOX2, MGC2413, 6657, ENSG00000181449, MCOPS3, P48431, ANOP3
165 results:
1. Treatment-related Neuroendocrine prostate Carcinoma-Diagnostic and Molecular Correlates.
Gopalan A
Adv Anat Pathol; 2024 Mar; 31(2):70-79. PubMed ID: 38223983
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2. prostate cancer Stem Cells: Biology and Treatment Implications.
Koukourakis IM; Platoni K; Kouloulias V; Arelaki S; Zygogianni A
Int J Mol Sci; 2023 Oct; 24(19):. PubMed ID: 37834336
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3. Knocking down sox2 overcomes the resistance of prostate cancer to castration via notch signaling.
Du Z; Chen X; Zhu P; Lv Q; Yong J; Gu J
Mol Biol Rep; 2023 Nov; 50(11):9007-9017. PubMed ID: 37716921
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4. Transposable Elements Are Co-opted as Oncogenic Regulatory Elements by Lineage-Specific Transcription Factors in prostate cancer.
Grillo G; Keshavarzian T; Linder S; Arlidge C; Mout L; Nand A; Teng M; Qamra A; Zhou S; Kron KJ; Murison A; Hawley JR; Fraser M; van der Kwast TH; Raj GV; He HH; Zwart W; Lupien M
Cancer Discov; 2023 Nov; 13(11):2470-2487. PubMed ID: 37694973
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5. Overexpression of sox2 Gene by Histone Modifications: sox2 Enhances Human prostate and Breast cancer Progression by Prevention of Apoptosis and Enhancing Cell Proliferation.
Kar S; Niharika ; Roy A; Patra SK
Oncology; 2023; 101(9):591-608. PubMed ID: 37549026
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6. Exportin 1 inhibition prevents neuroendocrine transformation through sox2 down-regulation in lung and prostate cancers.
Quintanal-Villalonga A; Durani V; Sabet A; Redin E; Kawasaki K; Shafer M; Karthaus WR; Zaidi S; Zhan YA; Manoj P; Sridhar H; Shah NS; Chow A; Bhanot UK; Linkov I; Asher M; Yu HA; Qiu J; de Stanchina E; Patel RA; Morrissey C; Haffner MC; Koche RP; Sawyers CL; Rudin CM
Sci Transl Med; 2023 Aug; 15(707):eadf7006. PubMed ID: 37531417
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7. ASCL1-mediated ferroptosis resistance enhances the progress of castration-resistant prostate cancer to neurosecretory prostate cancer.
Nie J; Zhang P; Liang C; Yu Y; Wang X
Free Radic Biol Med; 2023 Aug; 205():318-331. PubMed ID: 37355053
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8. Pretreatment of prostate cancer cells with salinomycin and Wnt inhibitor increases the efficacy of cabazitaxel by inducing apoptosis and decreasing cancer stem cells.
Serttas R; Erdogan S
Med Oncol; 2023 Jun; 40(7):194. PubMed ID: 37264204
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9. CD24 targeting with NK-CAR immunotherapy in testis, prostate, renal and (luminal-type) bladder cancer and identification of direct CD24 interaction partners.
Söhngen C; Thomas DJ; Skowron MA; Bremmer F; Eckstein M; Stefanski A; Driessen MD; Wakileh GA; Stühler K; Altevogt P; Theodorescu D; Klapdor R; Schambach A; Nettersheim D
FEBS J; 2023 Oct; 290(20):4864-4876. PubMed ID: 37254618
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10. sox2 expression in prostate cancer drives resistance to nuclear hormone receptor signaling inhibition through the WEE1/CDK1 signaling axis.
Williams A; Gutgesell L; de Wet L; Selman P; Dey A; Avineni M; Kapoor I; Mendez M; Brown R; Lamperis S; Blajszczak C; Bueter E; Kregel S; Vander Griend DJ; Szmulewitz RZ
Cancer Lett; 2023 Jul; 565():216209. PubMed ID: 37169162
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11. Epigenetic regulation of pluripotency inducer genes NANOG and sox2 in human prostate cancer.
Niharika ; Roy A; Mishra J; Chakraborty S; Singh SP; Patra SK
Prog Mol Biol Transl Sci; 2023; 197():241-260. PubMed ID: 37019595
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12. cancer stem cell in prostate cancer progression, metastasis and therapy resistance.
Verma P; Shukla N; Kumari S; Ansari MS; Gautam NK; Patel GK
Biochim Biophys Acta Rev Cancer; 2023 May; 1878(3):188887. PubMed ID: 36997008
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13. Total flavonoids of Litchi seed attenuate stem cell-like properties in breast cancer by regulating Notch3 signaling pathway.
Liao Y; Luo Z; Liu Y; Xue W; He S; Chen X; Ren H; Yang X; Zhu D; Su Z; Huang Q; Guo H
J Ethnopharmacol; 2023 Apr; 305():116133. PubMed ID: 36603788
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14. TRIM59 is suppressed by androgen receptor and acts to promote lineage plasticity and treatment-induced neuroendocrine differentiation in prostate cancer.
Fan L; Gong Y; He Y; Gao WQ; Dong X; Dong B; Zhu HH; Xue W
Oncogene; 2023 Feb; 42(8):559-571. PubMed ID: 36544044
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15. cancer Stemness/Epithelial-Mesenchymal Transition Axis Influences Metastasis and Castration Resistance in prostate cancer: Potential Therapeutic Target.
Castellón EA; Indo S; Contreras HR
Int J Mol Sci; 2022 Nov; 23(23):. PubMed ID: 36499245
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16. Neuropilin-2 promotes lineage plasticity and progression to neuroendocrine prostate cancer.
Wang J; Li J; Yin L; Pu T; Wei J; Karthikeyan V; Lin TP; Gao AC; Wu BJ
Oncogene; 2022 Sep; 41(37):4307-4317. PubMed ID: 35986103
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17. The driver role of JAK-STAT signalling in cancer stemness capabilities leading to new therapeutic strategies for therapy- and castration-resistant prostate cancer.
Lo UG; Chen YA; Cen J; Deng S; Luo J; Zhau H; Ho L; Lai CH; Mu P; Chung LWK; Hsieh JT
Clin Transl Med; 2022 Aug; 12(8):e978. PubMed ID: 35908276
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18. Counterintuitive production of tumor-suppressive secretomes from Oct4- and c-Myc-overexpressing tumor cells and MSCs.
Li K; Sun X; Zha R; Liu S; Feng Y; Sano T; Aryal UK; Sudo A; Li BY; Yokota H
Theranostics; 2022; 12(7):3084-3103. PubMed ID: 35547745
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19. Immune Biomarkers in Metastatic Castration-resistant prostate cancer.
Fenor de la Maza MD; Chandran K; Rekowski J; Shui IM; Gurel B; Cross E; Carreira S; Yuan W; Westaby D; Miranda S; Ferreira A; Seed G; Crespo M; Figueiredo I; Bertan C; Gil V; Riisnaes R; Sharp A; Rodrigues DN; Rescigno P; Tunariu N; Liu XQ; Cristescu R; Schloss C; Yap C; de Bono JS
Eur Urol Oncol; 2022 Dec; 5(6):659-667. PubMed ID: 35491356
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20. LncRNA PCAT1 activates sox2 and suppresses radioimmune responses via regulating cGAS/STING signalling in non-small cell lung cancer.
Gao Y; Zhang N; Zeng Z; Wu Q; Jiang X; Li S; Sun W; Zhang J; Li Y; Li J; He F; Huang Z; Zhang J; Gong Y; Xie C
Clin Transl Med; 2022 Apr; 12(4):e792. PubMed ID: 35415876
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