Terms: = Pancreatic cancer AND SOX2, MGC2413, 6657, ENSG00000181449, MCOPS3, P48431, ANOP3 AND Treatment
44 results:
1. Inhibiting NR5A2 targets stemness in pancreatic cancer by disrupting sox2/MYC signaling and restoring chemosensitivity.
Zheng Q; Tang J; Aicher A; Bou Kheir T; Sabanovic B; Ananthanarayanan P; Reina C; Chen M; Gu JM; He B; Alcala S; Behrens D; Lawlo RT; Scarpa A; Hidalgo M; Sainz B; Sancho P; Heeschen C
J Exp Clin Cancer Res; 2023 Nov; 42(1):323. PubMed ID: 38012687
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2. Umbelliprenin induces autophagy and apoptosis while inhibits cancer cell stemness in pancreatic cancer cells.
Wang H; Liu Y; Wang Y; Xu T; Xia G; Huang X
Cancer Med; 2023 Jul; 12(14):15277-15288. PubMed ID: 37409635
[TBL] [Abstract] [Full Text] [Related]
3. Evaluating the biological effectiveness of boron neutron capture therapy by using microfluidics-based pancreatic tumor spheroids.
Yu LY; Hsu CH; Li CY; Hong SY; Chen CR; Chen CS
Analyst; 2023 Jun; 148(13):3045-3056. PubMed ID: 37272284
[No Abstract] [Full Text] [Related]
4. METTL3 promotes pancreatic cancer proliferation and stemness by increasing stability of ID2 mRNA in a m6A-dependent manner.
Chen J; Zhang H; Xiu C; Gao C; Wu S; Bai J; Shen Q; Yin T
Cancer Lett; 2023 Jul; 565():216222. PubMed ID: 37196908
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5. Irbesartan overcomes gemcitabine resistance in pancreatic cancer by suppressing stemness and iron metabolism via inhibition of the Hippo/YAP1/c-Jun axis.
Zhou T; Xie Y; Hou X; Bai W; Li X; Liu Z; Man Q; Sun J; Fu D; Yan J; Zhang Z; Wang Y; Wang H; Jiang W; Gao S; Zhao T; Chang A; Wang X; Sun H; Zhang X; Yang S; Huang C; Hao J; Liu J
J Exp Clin Cancer Res; 2023 May; 42(1):111. PubMed ID: 37143164
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6. USP33 enhances cell survival and stemness by deubiquitinating CTNNB1 in BXPC-3 and SW1990 cells.
Zhong B; Zhu Q; Wang L; Wang F; Zheng Y; Lin S; Cheng X
Cell Biol Int; 2023 Aug; 47(8):1368-1380. PubMed ID: 37076992
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7. Deubiquitinating enzyme Josephin-2 stabilizes PHGDH to promote a cancer stem cell phenotype in hepatocellular carcinoma.
Wang Y; Li ZX; Wang JG; Li LH; Shen WL; Dang XW
Genes Genomics; 2023 Feb; 45(2):215-224. PubMed ID: 36583817
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8. Prolyl 4-hydroxylase P4HA1 Mediates the Interplay Between Glucose Metabolism and Stemness in pancreatic cancer Cells.
Cao X; Cao Y; Zhao H; Wang P; Zhu Z
Curr Stem Cell Res Ther; 2023; 18(5):712-719. PubMed ID: 36043766
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9. 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
[No Abstract] [Full Text] [Related]
10. 5-fluorouracil suppresses stem cell-like properties by inhibiting p38 in pancreatic cancer cell line PANC-1.
Zhao J; Shi X; Dong C; Liu R; Su L; Cao C
Folia Histochem Cytobiol; 2022; 60(1):55-65. PubMed ID: 35103981
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11. Ethanol exposure of human pancreatic normal ductal epithelial cells induces EMT phenotype and enhances pancreatic cancer development in KC (Pdx1-Cre and LSL-Kras
Yu W; Ma Y; Roy SK; Srivastava R; Shankar S; Srivastava RK
J Cell Mol Med; 2022 Jan; 26(2):399-409. PubMed ID: 34859959
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12. MUC1-C dictates neuroendocrine lineage specification in pancreatic ductal adenocarcinomas.
Luan Z; Morimoto Y; Fushimi A; Yamashita N; Suo W; Bhattacharya A; Hagiwara M; Jin C; Kufe D
Carcinogenesis; 2022 Feb; 43(1):67-76. PubMed ID: 34657147
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13. Androgen deprivation upregulates SPINK1 expression and potentiates cellular plasticity in prostate cancer.
Tiwari R; Manzar N; Bhatia V; Yadav A; Nengroo MA; Datta D; Carskadon S; Gupta N; Sigouros M; Khani F; Poutanen M; Zoubeidi A; Beltran H; Palanisamy N; Ateeq B
Nat Commun; 2020 Jan; 11(1):384. PubMed ID: 31959826
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14. Effects of Fentanyl on pancreatic cancer cell proliferation and cancer stem cell differentiation.
Celik F; Duran T
Cell Mol Biol (Noisy-le-grand); 2019 Sep; 65(7):21-25. PubMed ID: 31880513
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15. Superparamagnetic iron oxide nanoparticles of curcumin enhance gemcitabine therapeutic response in pancreatic cancer.
Khan S; Setua S; Kumari S; Dan N; Massey A; Hafeez BB; Yallapu MM; Stiles ZE; Alabkaa A; Yue J; Ganju A; Behrman S; Jaggi M; Chauhan SC
Biomaterials; 2019 Jul; 208():83-97. PubMed ID: 30999154
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16. Inhibition of pancreatic cancer stem cell characteristics by α-Mangostin: Molecular mechanisms involving Sonic hedgehog and Nanog.
Ma Y; Yu W; Shrivastava A; Srivastava RK; Shankar S
J Cell Mol Med; 2019 Apr; 23(4):2719-2730. PubMed ID: 30712329
[TBL] [Abstract] [Full Text] [Related]
17. Hypoxia potentiates gemcitabine-induced stemness in pancreatic cancer cells through AKT/Notch1 signaling.
Zhang Z; Han H; Rong Y; Zhu K; Zhu Z; Tang Z; Xiong C; Tao J
J Exp Clin Cancer Res; 2018 Nov; 37(1):291. PubMed ID: 30486896
[TBL] [Abstract] [Full Text] [Related]
18. CUB Domain-containing Protein 1 (CDCP1) Is Down-regulated by Active Hexose-correlated Compound in Human pancreatic cancer Cells.
Kuhara K; Tokuda K; Kitagawa T; Baron B; Tokunaga M; Harada K; Terasaki M; Uehara O; Ohta T; Takai R; Hamada JI; Kobayashi M; Shimo T; Nagayasu H; Kuramitsu Y
Anticancer Res; 2018 Nov; 38(11):6107-6111. PubMed ID: 30396925
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19. The role of GLI-sox2 signaling axis for gemcitabine resistance in pancreatic cancer.
Jia Y; Gu D; Wan J; Yu B; Zhang X; Chiorean EG; Wang Y; Xie J
Oncogene; 2019 Mar; 38(10):1764-1777. PubMed ID: 30382189
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20. CDK1 Interacts with sox2 and Promotes Tumor Initiation in Human Melanoma.
Ravindran Menon D; Luo Y; Arcaroli JJ; Liu S; KrishnanKutty LN; Osborne DG; Li Y; Samson JM; Bagby S; Tan AC; Robinson WA; Messersmith WA; Fujita M
Cancer Res; 2018 Dec; 78(23):6561-6574. PubMed ID: 30297536
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