Terms: = Germ cell tumor AND SMAD3, JV15-2, 4088, ENSG00000166949, P84022, Smad3, MADH3, HsT17436, Smad 3, DKFZp686J10186, HSPC193, DKFZP586N0721, MGC60396 AND Treatment
30 results:
1. ID1
Choi SH; Jang J; Kim Y; Park CG; Lee SY; Kim H; Kim H
Cell Death Dis; 2024 Apr; 15(4):292. PubMed ID: 38658527
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2. Correlations between the expression of molecules in the TGF-β signaling pathway and clinical factors in adamantinomatous craniopharyngiomas.
Jin L; Cai K; Wu W; Xiao Y; Qiao N; Liu F; Ru S; Cao L; Zhu H; Bai J; Liu C; Li C; Zhao P; Zhang Y; Gui S
Front Endocrinol (Lausanne); 2023; 14():1167776. PubMed ID: 37854185
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3. The CD73 is induced by TGF-β1 triggered by nutrient deprivation and highly expressed in dedifferentiated human melanoma.
Giraulo C; Turiello R; Orlando L; Leonardelli S; Landsberg J; Belvedere R; Rolshoven G; Müller CE; Hölzel M; Morello S
Biomed Pharmacother; 2023 Sep; 165():115225. PubMed ID: 37517292
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4. Multi-omic integration of DNA methylation and gene expression data reveals molecular vulnerabilities in glioblastoma.
Santamarina-Ojeda P; Tejedor JR; Pérez RF; López V; Roberti A; Mangas C; Fernández AF; Fraga MF
Mol Oncol; 2023 Sep; 17(9):1726-1743. PubMed ID: 37357610
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5. Valproic Acid Inhibits Glioma and Its Mechanisms.
Yang ZY; Wang XH
J Healthc Eng; 2022; 2022():4985781. PubMed ID: 35251569
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6. pH-Triggered Copper-Free Click Reaction-Mediated Micelle Aggregation for Enhanced tumor Retention and Elevated Immuno-Chemotherapy against Melanoma.
Deng M; Guo R; Zang S; Rao J; Li M; Tang X; Xia C; Li M; Zhang Z; He Q
ACS Appl Mater Interfaces; 2021 Apr; 13(15):18033-18046. PubMed ID: 33834754
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7. Ultrasound-guided Intralesional Injection of Talimogene laherparepvec (Imlygic) for Advanced Melanoma: Technical Note on a Preliminary Experience.
Burke LMB; Yu H; Burke K; Gwynn M; Louie RJ; Ollila DW; Rn PL; Collichio F
Cardiovasc Intervent Radiol; 2021 May; 44(5):801-806. PubMed ID: 33447922
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8. Autophagy inhibition potentiates the anti-EMT effects of alteronol through TGF-β/smad3 signaling in melanoma cells.
Bao Y; Ding Z; Zhao P; Li J; Chen P; Zheng J; Qian Z
Cell Death Dis; 2020 Apr; 11(4):223. PubMed ID: 32265437
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9. An autocrine ActivinB mechanism drives TGFβ/Activin signaling in Group 3 medulloblastoma.
Morabito M; Larcher M; Cavalli FM; Foray C; Forget A; Mirabal-Ortega L; Andrianteranagna M; Druillennec S; Garancher A; Masliah-Planchon J; Leboucher S; Debalkew A; Raso A; Delattre O; Puget S; Doz F; Taylor MD; Ayrault O; Bourdeaut F; Eychène A; Pouponnot C
EMBO Mol Med; 2019 Aug; 11(8):e9830. PubMed ID: 31328883
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10. ONECUT2 is a driver of neuroendocrine prostate cancer.
Guo H; Ci X; Ahmed M; Hua JT; Soares F; Lin D; Puca L; Vosoughi A; Xue H; Li E; Su P; Chen S; Nguyen T; Liang Y; Zhang Y; Xu X; Xu J; Sheahan AV; Ba-Alawi W; Zhang S; Mahamud O; Vellanki RN; Gleave M; Bristow RG; Haibe-Kains B; Poirier JT; Rudin CM; Tsao MS; Wouters BG; Fazli L; Feng FY; Ellis L; van der Kwast T; Berlin A; Koritzinsky M; Boutros PC; Zoubeidi A; Beltran H; Wang Y; He HH
Nat Commun; 2019 Jan; 10(1):278. PubMed ID: 30655535
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11. smad3 silencing enhances DNA damage in radiation therapy by interacting with MRE11-RAD50-NBS1 complex in glioma.
Jiang Z; Guo Y; Miao L; Han L; Zhang W; Jiang Y
J Biochem; 2019 Apr; 165(4):317-322. PubMed ID: 30535026
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12. Ahnak promotes tumor metastasis through transforming growth factor-β-mediated epithelial-mesenchymal transition.
Sohn M; Shin S; Yoo JY; Goh Y; Lee IH; Bae YS
Sci Rep; 2018 Sep; 8(1):14379. PubMed ID: 30258109
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13. miR-16-5p inhibits chordoma cell proliferation, invasion and metastasis by targeting smad3.
Zhang H; Yang K; Ren T; Huang Y; Tang X; Guo W
Cell Death Dis; 2018 Jun; 9(6):680. PubMed ID: 29880900
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14. smad dependent signaling plays a detrimental role in a fly model of SMARCB1-deficiency and the biology of atypical teratoid/rhabdoid tumors.
Jeibmann A; Schulz J; Eikmeier K; Johann PD; Thiel K; Tegeder I; Ambrée O; Frühwald MC; Pfister SM; Kool M; Paulus W; Hasselblatt M
J Neurooncol; 2017 Feb; 131(3):477-484. PubMed ID: 28108836
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15. Extracellular miRNA-21 as a novel biomarker in glioma: Evidence from meta-analysis, clinical validation and experimental investigations.
Qu K; Lin T; Pang Q; Liu T; Wang Z; Tai M; Meng F; Zhang J; Wan Y; Mao P; Dong X; Liu C; Niu W; Dong S
Oncotarget; 2016 Jun; 7(23):33994-4010. PubMed ID: 27166186
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16. Endothelial-mesenchymal transition of brain endothelial cells: possible role during metastatic extravasation.
Krizbai IA; Gasparics Á; Nagyőszi P; Fazakas C; Molnár J; Wilhelm I; Bencs R; Rosivall L; Sebe A
PLoS One; 2015; 10(3):e0123845. PubMed ID: 25822751
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17. TAZ promotes epithelial to mesenchymal transition via the upregulation of connective tissue growth factor expression in neuroblastoma cells.
Wang Q; Xu Z; An Q; Jiang D; Wang L; Liang B; Li Z
Mol Med Rep; 2015 Feb; 11(2):982-8. PubMed ID: 25354978
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18. Lefty inhibits glioma growth by suppressing Nodal-activated smad and ERK1/2 pathways.
Sun G; Shi L; Li M; Jiang N; Fu L; Guo J
J Neurol Sci; 2014 Dec; 347(1-2):137-42. PubMed ID: 25304053
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19. Transcriptional regulation of seprase in invasive melanoma cells by transforming growth factor-β signaling.
Tulley S; Chen WT
J Biol Chem; 2014 May; 289(22):15280-96. PubMed ID: 24727589
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20. Activin receptor-like kinase5 inhibition suppresses mouse melanoma by ubiquitin degradation of smad4, thereby derepressing eomesodermin in cytotoxic T lymphocytes.
Yoon JH; Jung SM; Park SH; Kato M; Yamashita T; Lee IK; Sudo K; Nakae S; Han JS; Kim OH; Oh BC; Sumida T; Kuroda M; Ju JH; Jung KC; Park SH; Kim DK; Mamura M
EMBO Mol Med; 2013 Nov; 5(11):1720-39. PubMed ID: 24127404
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