Terms: = Head and neck cancer AND SMAD4, JIP, Q13485, 4089, ENSG00000141646, MADH4, DPC4 AND Prognosis
29 results:
1. Serum-derived extracellular vesicles mediate smad4 expression through shuttling microRNA-27a in the progression of laryngeal squamous cell carcinoma.
Shuang Y; Yao X; Liu J; Niu J; Guo W; Li C
Hum Cell; 2022 Jul; 35(4):1084-1099. PubMed ID: 35545731
[TBL] [Abstract] [Full Text] [Related]
2. Long non-coding RNA CATIP antisense RNA 1 (lncRNA CATIP-AS1) downregulation contributes to the progression and metastasis of thyroid cancer via epithelial-mesenchymal transition (EMT) pathway.
Qi F; Tang J; Cai Z; Wang G; Wang Z
Bioengineered; 2022 Mar; 13(3):7592-7606. PubMed ID: 35264071
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3. HPV-mediated regulation of smad4 modulates the DNA damage response in head and neck cancer.
Citro S; Miccolo C; Medda A; Ghiani L; Tagliabue M; Ansarin M; Chiocca S
J Exp Clin Cancer Res; 2022 Feb; 41(1):59. PubMed ID: 35144669
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4. Comprehensive Analysis of the Expression of TGF-
Song W; Dai WJ; Zhang MH; Wang H; Yang XZ
Comput Math Methods Med; 2021; 2021():1812227. PubMed ID: 34725559
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5. A novel intronic circular RNA, circGNG7, inhibits head and neck squamous cell carcinoma progression by blocking the phosphorylation of heat shock protein 27 at Ser78 and Ser82.
Ju H; Hu Z; Wei D; Huang J; Zhang X; Rui M; Li Z; Zhang X; Hu J; Guo W; Ren G
Cancer Commun (Lond); 2021 Nov; 41(11):1152-1172. PubMed ID: 34498800
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6. LAMC1 upregulation via TGFβ induces inflammatory cancer-associated fibroblasts in esophageal squamous cell carcinoma via NF-κB-CXCL1-STAT3.
Fang L; Che Y; Zhang C; Huang J; Lei Y; Lu Z; Sun N; He J
Mol Oncol; 2021 Nov; 15(11):3125-3146. PubMed ID: 34218518
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7. MicroRNA‑181a promotes epithelial‑mesenchymal transition in esophageal squamous cell carcinoma via the TGF‑β/Smad pathway.
Xu R; Zhou XM; Li YS; Ren L; He XR
Mol Med Rep; 2021 May; 23(5):. PubMed ID: 33760133
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8. MiR-770 promotes oral squamous cell carcinoma migration and invasion by regulating the Sirt7/smad4 pathway.
Jia B; Zhang S; Wu S; Zhu Q; Li W
IUBMB Life; 2021 Jan; 73(1):264-272. PubMed ID: 33326690
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9. Pan-cancer analysis of genomic properties and clinical outcome associated with tumor tertiary lymphoid structure.
Lin Z; Huang L; Li S; Gu J; Cui X; Zhou Y
Sci Rep; 2020 Dec; 10(1):21530. PubMed ID: 33299035
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10. Prognostic implication of proteomic profiles in head and neck squamous cell carcinoma.
Wu D; Gong P; Zeng Q; Zhang W; Xie F; Zhou X
Clin Chim Acta; 2020 Oct; 509():304-309. PubMed ID: 32569632
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11. The landscape of selection in 551 esophageal adenocarcinomas defines genomic biomarkers for the clinic.
Frankell AM; Jammula S; Li X; Contino G; Killcoyne S; Abbas S; Perner J; Bower L; Devonshire G; Ococks E; Grehan N; Mok J; O'Donovan M; MacRae S; Eldridge MD; Tavaré S; ; Fitzgerald RC
Nat Genet; 2019 Mar; 51(3):506-516. PubMed ID: 30718927
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12. Inter- and intra-tumor heterogeneity of smad4 loss in head and neck squamous cell carcinomas.
Hernandez AL; Wang Y; Somerset HL; Keysar SB; Aisner DL; Marshall C; Bowles DW; Karam SD; Raben D; Jimeno A; Varella-Garcia M; Wang XJ
Mol Carcinog; 2019 May; 58(5):666-673. PubMed ID: 30575147
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13. SIRT7 suppresses the epithelial-to-mesenchymal transition in oral squamous cell carcinoma metastasis by promoting smad4 deacetylation.
Li W; Zhu D; Qin S
J Exp Clin Cancer Res; 2018 Jul; 37(1):148. PubMed ID: 30001742
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14. National treatment times in oropharyngeal cancer treated with primary radiation or chemoradiation.
Morse E; Judson B; Husain Z; Burtness B; Yarbrough W; Sasaki C; Cheraghlou S; Mehra S
Oral Oncol; 2018 Jul; 82():122-130. PubMed ID: 29909886
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15. Targeted next-generation sequencing of commonly mutated genes in esophageal adenocarcinoma patients with long-term survival.
Visser E; Franken IA; Brosens LAA; de Leng WWJ; Strengman E; Offerhaus JA; Ruurda JP; van Hillegersberg R
Dis Esophagus; 2017 Sep; 30(9):1-8. PubMed ID: 28859360
[TBL] [Abstract] [Full Text] [Related]
16. Molecular Pathology of Anaplastic Thyroid Carcinomas: A Retrospective Study of 144 Cases.
Bonhomme B; Godbert Y; Perot G; Al Ghuzlan A; Bardet S; Belleannée G; Crinière L; Do Cao C; Fouilloux G; Guyetant S; Kelly A; Leboulleux S; Buffet C; Leteurtre E; Michels JJ; Tissier F; Toubert ME; Wassef M; Pinard C; Hostein I; Soubeyran I
Thyroid; 2017 May; 27(5):682-692. PubMed ID: 28351340
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17. TRPP2 Enhances Metastasis by Regulating Epithelial-Mesenchymal Transition in Laryngeal Squamous Cell Carcinoma.
Wu K; Shen B; Jiang F; Xia L; Fan T; Qin M; Yang L; Guo J; Li Y; Zhu M; Du J; Liu Y
Cell Physiol Biochem; 2016; 39(6):2203-2215. PubMed ID: 27832627
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18. Overexpression of the BMP4/SMAD signaling pathway in skull base chordomas is associated with poor prognosis.
Feng Y; Zhang Q; Wang Z; Yan B; Wei W; Li P
Int J Clin Exp Pathol; 2015; 8(7):8268-75. PubMed ID: 26339396
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19. Ultra-deep targeted sequencing of advanced oral squamous cell carcinoma identifies a mutation-based prognostic gene signature.
Chen SJ; Liu H; Liao CT; Huang PJ; Huang Y; Hsu A; Tang P; Chang YS; Chen HC; Yen TC
Oncotarget; 2015 Jul; 6(20):18066-80. PubMed ID: 25980437
[TBL] [Abstract] [Full Text] [Related]
20. smad4 loss in esophageal adenocarcinoma is associated with an increased propensity for disease recurrence and poor survival.
Singhi AD; Foxwell TJ; Nason K; Cressman KL; McGrath KM; Sun W; Bahary N; Zeh HJ; Levy RM; Luketich JD; Davison JM
Am J Surg Pathol; 2015 Apr; 39(4):487-95. PubMed ID: 25634752
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