Terms: = Pancreatic cancer AND TCF7L2, ENSG00000148737, 6934, TCF-4
20 results:
1. The pro- and antineoplastic effects of deoxycholic acid in pancreatic adenocarcinoma cell models.
Schwarcz S; Kovács P; Kovács T; Ujlaki G; Nyerges P; Uray K; Bai P; Mikó E
Mol Biol Rep; 2023 Jun; 50(6):5273-5282. PubMed ID: 37145211
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2. Ubiquitin-specific protease 28 deubiquitinates tcf7l2 to govern the action of the Wnt signaling pathway in hepatic carcinoma.
Sun X; Cai M; Wu L; Zhen X; Chen Y; Peng J; Han S; Zhang P
Cancer Sci; 2022 Oct; 113(10):3463-3475. PubMed ID: 35880246
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3. Whole-exome sequencing analysis of NSCLC reveals the pathogenic missense variants from cancer-associated genes.
Kumar S U; Balasundaram A; Cathryn R H; Varghese RP; R S; R G; Younes S; Zayed H; Doss C GP
Comput Biol Med; 2022 Sep; 148():105701. PubMed ID: 35753820
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4. The role of transcription factor 7-like 2 in metabolic disorders.
Zhang Z; Xu L; Xu X
Obes Rev; 2021 May; 22(5):e13166. PubMed ID: 33615650
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5. Juglone can inhibit angiogenesis and metastasis in pancreatic cancer cells by targeting Wnt/β-catenin signaling.
Gokturk F; Erkoc-Kaya D; Arikoglu H
Bratisl Lek Listy; 2021; 122(2):132-137. PubMed ID: 33502882
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6. Single-cell lineage analysis reveals extensive multimodal transcriptional control during directed beta-cell differentiation.
Weng C; Xi J; Li H; Cui J; Gu A; Lai S; Leskov K; Ke L; Jin F; Li Y
Nat Metab; 2020 Dec; 2(12):1443-1458. PubMed ID: 33257854
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7. Wnt-driven LARGE2 mediates laminin-adhesive O-glycosylation in human colonic epithelial cells and colorectal cancer.
Dietinger V; García de Durango CR; Wiechmann S; Boos SL; Michl M; Neumann J; Hermeking H; Kuster B; Jung P
Cell Commun Signal; 2020 Jun; 18(1):102. PubMed ID: 32586342
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8. Adiponectin Suppresses Human pancreatic cancer Growth through Attenuating the β-Catenin Signaling Pathway.
Jiang J; Fan Y; Zhang W; Shen Y; Liu T; Yao M; Gu J; Tu H; Gan Y
Int J Biol Sci; 2019; 15(2):253-264. PubMed ID: 30745818
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9. Three-dimensional analysis reveals altered chromatin interaction by enhancer inhibitors harbors tcf7l2-regulated cancer gene signature.
Gerrard DL; Wang Y; Gaddis M; Zhou Y; Wang J; Witt H; Lin S; Farnham PJ; Jin VX; Frietze SE
J Cell Biochem; 2019 Mar; 120(3):3056-3070. PubMed ID: 30548288
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10. tcf7l2 positively regulates aerobic glycolysis via the EGLN2/HIF-1α axis and indicates prognosis in pancreatic cancer.
Xiang J; Hu Q; Qin Y; Ji S; Xu W; Liu W; Shi S; Liang C; Liu J; Meng Q; Liang D; Ni Q; Xu J; Zhang B; Yu X
Cell Death Dis; 2018 Feb; 9(3):321. PubMed ID: 29476053
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11. Genome-wide analysis of PDX1 target genes in human pancreatic progenitors.
Wang X; Sterr M; Burtscher I; Chen S; Hieronimus A; Machicao F; Staiger H; Häring HU; Lederer G; Meitinger T; Cernilogar FM; Schotta G; Irmler M; Beckers J; Hrabě de Angelis M; Ray M; Wright CVE; Bakhti M; Lickert H
Mol Metab; 2018 Mar; 9():57-68. PubMed ID: 29396371
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12. Chemical Modulation of WNT Signaling in cancer.
Zhang LS; Lum L
Prog Mol Biol Transl Sci; 2018 Jan; 153():245-269. PubMed ID: 29389519
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13. Transcription-dependent radial distribution of tcf7l2 regulated genes in chromosome territories.
Torabi K; Wangsa D; Ponsa I; Brown M; Bosch A; Vila-Casadesús M; Karpova TS; Calvo M; Castells A; Miró R; Ried T; Camps J
Chromosoma; 2017 Oct; 126(5):655-667. PubMed ID: 28343235
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14. Patterns of somatic uniparental disomy identify novel tumor suppressor genes in colorectal cancer.
Torabi K; Miró R; Fernández-Jiménez N; Quintanilla I; Ramos L; Prat E; del Rey J; Pujol N; Killian JK; Meltzer PS; Fernández PL; Ried T; Lozano JJ; Camps J; Ponsa I
Carcinogenesis; 2015 Oct; 36(10):1103-10. PubMed ID: 26243311
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15. Case-control study of diabetes-related genetic variants and pancreatic cancer risk in Japan.
Kuruma S; Egawa N; Kurata M; Honda G; Kamisawa T; Ueda J; Ishii H; Ueno M; Nakao H; Mori M; Matsuo K; Hosono S; Ohkawa S; Wakai K; Nakamura K; Tamakoshi A; Nojima M; Takahashi M; Shimada K; Nishiyama T; Kikuchi S; Lin Y
World J Gastroenterol; 2014 Dec; 20(46):17456-62. PubMed ID: 25516658
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16. Anti-diabetic actions of glucagon-like peptide-1 on pancreatic beta-cells.
Lee YS; Jun HS
Metabolism; 2014 Jan; 63(1):9-19. PubMed ID: 24140094
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17. Impacts of tcf7l2 gene polymorphisms on the susceptibility of hepatogenous diabetes and hepatocellular carcinoma in cirrhotic patients.
Ling Q; Dong F; Geng L; Liu Z; Xie H; Xu X; Zheng S
Gene; 2013 Jun; 522(2):214-8. PubMed ID: 23558246
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18. COUP-TFII controls mouse pancreatic β-cell mass through GLP-1-β-catenin signaling pathways.
Boutant M; Ramos OH; Tourrel-Cuzin C; Movassat J; Ilias A; Vallois D; Planchais J; Pégorier JP; Schuit F; Petit PX; Bossard P; Maedler K; Grapin-Botton A; Vasseur-Cognet M
PLoS One; 2012; 7(1):e30847. PubMed ID: 22292058
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19. Evidence for neuroendocrine function of a unique splicing form of tcf7l2 in human brain, islets and gut.
Prokunina-Olsson L; Hall JL
Diabetologia; 2010 Apr; 53(4):712-6. PubMed ID: 20033802
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20. Analysis of the beta-catenin/T cell factor signaling pathway in 36 gastrointestinal and liver cancer cells.
Ikenoue T; Ijichi H; Kato N; Kanai F; Masaki T; Rengifo W; Okamoto M; Matsumura M; Kawabe T; Shiratori Y; Omata M
Jpn J Cancer Res; 2002 Nov; 93(11):1213-20. PubMed ID: 12460462
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