Terms: = Pancreatic cancer AND CTNNB1, P35222, 1499, ENSG00000168036, CTNNB AND Prognosis
25 results:
1. High-grade Solid Pseudopapillary Neoplasms of the Pancreas: Distinct Clinicopathological Malignant Features With Intriguing Gene Alterations through a Comparison With the Conventional Type.
Honda S; Yamaguchi H; Aimono E; Hara S; Minamiguchi S; Norose T; Ohike N; Yamochi T; Yasuda M; Moriya T; Shiko Y; Nishihara H; Nagao T
Am J Surg Pathol; 2024 Mar; 48(3):353-363. PubMed ID: 38189381
[TBL] [Abstract] [Full Text] [Related]
2. Relationship Between Immunophenotypes, Genetic Profiles, and Clinicopathologic Characteristics in Small Bowel Adenocarcinoma.
Hoshimoto A; Tatsuguchi A; Yamada T; Kuriyama S; Hamakubo R; Nishimoto T; Omori J; Akimoto N; Gudis K; Mitsui K; Tanaka S; Fujimori S; Hatori T; Shimizu A; Iwakiri K
Am J Surg Pathol; 2024 Feb; 48(2):127-139. PubMed ID: 38062562
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3. Oncogenic Drivers and Therapeutic Vulnerabilities in KRAS Wild-Type pancreatic cancer.
Singh H; Keller RB; Kapner KS; Dilly J; Raghavan S; Yuan C; Cohen EF; Tolstorukov M; Andrews E; Brais LK; da Silva A; Perez K; Rubinson DA; Surana R; Giannakis M; Ng K; Clancy TE; Yurgelun MB; Schlechter BL; Clark JW; Shapiro GI; Rosenthal MH; Hornick JL; Nardi V; Li YY; Gupta H; Cherniack AD; Meyerson M; Cleary JM; Nowak JA; Wolpin BM; Aguirre AJ
Clin Cancer Res; 2023 Nov; 29(22):4627-4643. PubMed ID: 37463056
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4. PITX2 in pancreatic stellate cells promotes EMT in pancreatic cancer cells via the Wnt/β-catenin pathway.
Wu D; Chen W; Yang Y; Qin Y; Zu G; Zhang Y; An Y; Sun D; Xu X; Chen X
Acta Biochim Biophys Sin (Shanghai); 2023 Jun; 55(9):1393-1403. PubMed ID: 37337632
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5. A Subset of Pancreatoblastomas May Arise From an Adenomatous Precursor: An Ampullary Pancreatoblastoma and Adjacent Adenoma With a Shared Molecular Phenotype in an Adult Patient.
Slack JC; Bründler MA; Box A; Koro K
Pancreas; 2022 Nov-Dec 01; 51(10):1455-1460. PubMed ID: 37099791
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6. Long-term Survival, Quality of Life, and Molecular Features of the Patients With Solid Pseudopapillary Neoplasm of the Pancreas: A Retrospective Study of 454 Cases.
Liu Q; Dai M; Guo J; Wu H; Wang W; Chen G; Hu Y; Han X; Xu Q; Zhang X; Yang S; Zhang Y; Kleeff J; Liao Q; Wu W; Liang Z; Zhang T; Zhao Y
Ann Surg; 2023 Dec; 278(6):1009-1017. PubMed ID: 37036095
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7. SCAND1 Reverses Epithelial-to-Mesenchymal Transition (EMT) and Suppresses Prostate cancer Growth and Migration.
Eguchi T; Csizmadia E; Kawai H; Sheta M; Yoshida K; Prince TL; Wegiel B; Calderwood SK
Cells; 2022 Dec; 11(24):. PubMed ID: 36552758
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8. Overview and clinical significance of multiple mutations in individual genes in hepatocellular carcinoma.
Imamura T; Okamura Y; Ohshima K; Uesaka K; Sugiura T; Ito T; Yamamoto Y; Ashida R; Ohgi K; Otsuka S; Ohnami S; Nagashima T; Hatakeyama K; Sugino T; Urakami K; Akiyama Y; Yamaguchi K
BMC Cancer; 2022 Oct; 22(1):1046. PubMed ID: 36199046
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9. Mutational and transcriptional alterations and clinicopathological factors predict the prognosis of stage I hepatocellular carcinoma : Prediction of stage I HCC prognosis.
Li Z; Gao H; Zhang X; Liu Q; Chen G
BMC Gastroenterol; 2022 Sep; 22(1):427. PubMed ID: 36153509
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10. Molecular characterization-based multi-omics analyses in primary liver cancer using the Japanese version of the genome atlas.
Imamura T; Okamura Y; Ohshima K; Uesaka K; Sugiura T; Yamamoto Y; Ashida R; Ohgi K; Nagashima T; Yamaguchi K
J Hepatobiliary Pancreat Sci; 2023 Mar; 30(3):269-282. PubMed ID: 35918906
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11. Multiomics identifies the link between intratumor steatosis and the exhausted tumor immune microenvironment in hepatocellular carcinoma.
Murai H; Kodama T; Maesaka K; Tange S; Motooka D; Suzuki Y; Shigematsu Y; Inamura K; Mise Y; Saiura A; Ono Y; Takahashi Y; Kawasaki Y; Iino S; Kobayashi S; Idogawa M; Tokino T; Hashidate-Yoshida T; Shindou H; Miyazaki M; Imai Y; Tanaka S; Mita E; Ohkawa K; Hikita H; Sakamori R; Tatsumi T; Eguchi H; Morii E; Takehara T
Hepatology; 2023 Jan; 77(1):77-91. PubMed ID: 35567547
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12. Construction of a lncRNA/pseudogene-hsa-miR-30d-5p-GJA1 regulatory network related to metastasis of pancreatic cancer.
Zheng H; Ding B; Xue K; Yu J; Lou W
Genomics; 2021 Jul; 113(4):1742-1753. PubMed ID: 33839271
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13. TSPAN1 promotes autophagy flux and mediates cooperation between WNT-ctnnb1 signaling and autophagy via the
Zhou C; Liang Y; Zhou L; Yan Y; Liu N; Zhang R; Huang Y; Wang M; Tang Y; Ali DW; Wang Y; Michalak M; Chen XZ; Tang J
Autophagy; 2021 Oct; 17(10):3175-3195. PubMed ID: 32972302
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14. Long noncoding RNA TSLNC8 enhances pancreatic cancer aggressiveness by regulating ctnnb1 expression via association with HuR.
Chai W; Liu R; Li F; Zhang Z; Lei B
Hum Cell; 2021 Jan; 34(1):165-176. PubMed ID: 32951177
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15. Prognostic and predicted significance of Ubqln2 in patients with hepatocellular carcinoma.
Luo YD; Yu HQ; Liu XY; Huang D; Dai HS; Fang L; Zhang YJ; Lai JJ; Jiang Y; Shuai L; Zhang LD; Chen G; Bie P; Xie CM
Cancer Med; 2020 Jun; 9(12):4083-4094. PubMed ID: 32293796
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16. Prognostic values of immune scores and immune microenvironment-related genes for hepatocellular carcinoma.
Ge PL; Li SF; Wang WW; Li CB; Fu YB; Feng ZK; Li L; Zhang G; Gao ZQ; Dang XW; Wu Y
Aging (Albany NY); 2020 Mar; 12(6):5479-5499. PubMed ID: 32213661
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17. PRMT1 promotes pancreatic cancer growth and predicts poor prognosis.
Song C; Chen T; He L; Ma N; Li JA; Rong YF; Fang Y; Liu M; Xie D; Lou W
Cell Oncol (Dordr); 2020 Feb; 43(1):51-62. PubMed ID: 31520395
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18. Comprehensive molecular and immunological characterization of hepatocellular carcinoma.
Shimada S; Mogushi K; Akiyama Y; Furuyama T; Watanabe S; Ogura T; Ogawa K; Ono H; Mitsunori Y; Ban D; Kudo A; Arii S; Tanabe M; Wands JR; Tanaka S
EBioMedicine; 2019 Feb; 40():457-470. PubMed ID: 30598371
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19. Integrated Genomic Characterization of pancreatic Ductal Adenocarcinoma.
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Cancer Cell; 2017 Aug; 32(2):185-203.e13. PubMed ID: 28810144
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20. BCL9L expression in pancreatic neoplasia with a focus on SPN: a possible explanation for the enigma of the benign neoplasia.
Hallas C; Phillipp J; Domanowsky L; Kah B; Tiemann K
BMC Cancer; 2016 Aug; 16():648. PubMed ID: 27539223
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