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Journal Abstract Search

351 related items for PubMed ID: 28042090

  • 1.
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  • 2. Activation of extracellular signal-regulated kinase by TGF-beta1 via TbetaRII and Smad7 dependent mechanisms in human bronchial epithelial BEP2D cells.
    Huo YY, Hu YC, He XR, Wang Y, Song BQ, Zhou PK, Zhu MX, Li G, Wu DC.
    Cell Biol Toxicol; 2007 Mar; 23(2):113-28. PubMed ID: 17096210
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  • 4. Differential roles of Smad2 and Smad3 in the regulation of TGF-β1-mediated growth inhibition and cell migration in pancreatic ductal adenocarcinoma cells: control by Rac1.
    Ungefroren H, Groth S, Sebens S, Lehnert H, Gieseler F, Fändrich F.
    Mol Cancer; 2011 May 30; 10():67. PubMed ID: 21624123
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  • 6. Smad2/3/4 Pathway Contributes to TGF-β-Induced MiRNA-181b Expression to Promote Gastric Cancer Metastasis by Targeting Timp3.
    Zhou Q, Zheng X, Chen L, Xu B, Yang X, Jiang J, Wu C.
    Cell Physiol Biochem; 2016 May 30; 39(2):453-66. PubMed ID: 27383203
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  • 8. MALAT1 Modulates TGF-β1-Induced Endothelial-to-Mesenchymal Transition through Downregulation of miR-145.
    Xiang Y, Zhang Y, Tang Y, Li Q.
    Cell Physiol Biochem; 2017 May 30; 42(1):357-372. PubMed ID: 28535533
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  • 10. Smad signaling pathway is a pivotal component of tissue inhibitor of metalloproteinases-3 regulation by transforming growth factor beta in human chondrocytes.
    Qureshi HY, Ricci G, Zafarullah M.
    Biochim Biophys Acta; 2008 Sep 30; 1783(9):1605-12. PubMed ID: 18471442
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  • 12. The transforming growth factor-beta/SMAD signaling pathway is present and functional in human mesangial cells.
    Poncelet AC, de Caestecker MP, Schnaper HW.
    Kidney Int; 1999 Oct 30; 56(4):1354-65. PubMed ID: 10504488
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  • 14. Pyridoxine 5'-phosphate oxidase is a novel therapeutic target and regulated by the TGF-β signalling pathway in epithelial ovarian cancer.
    Zhang L, Zhou D, Guan W, Ren W, Sun W, Shi J, Lin Q, Zhang J, Qiao T, Ye Y, Wu Y, Zhang Y, Zuo X, Connor KL, Xu G.
    Cell Death Dis; 2017 Dec 13; 8(12):3214. PubMed ID: 29238081
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  • 15. MicroRNA MiR-130a-3p promotes gastric cancer by targeting Glucosaminyl N-acetyl transferase 4 (GCNT4) to regulate the TGF-β1/SMAD3 pathway.
    Hu W, Zheng X, Liu J, Zhang M, Liang Y, Song M.
    Bioengineered; 2021 Dec 13; 12(2):11634-11647. PubMed ID: 34696660
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  • 16. Involvement of smad2 and Erk/Akt cascade in TGF-β1-induced apoptosis in human gingival epithelial cells.
    Yoshimoto T, Fujita T, Kajiya M, Matsuda S, Ouhara K, Shiba H, Kurihara H.
    Cytokine; 2015 Sep 13; 75(1):165-73. PubMed ID: 25882870
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  • 17. miR-21 overexpression enhances TGF-β1-induced epithelial-to-mesenchymal transition by target smad7 and aggravates renal damage in diabetic nephropathy.
    Wang JY, Gao YB, Zhang N, Zou DW, Wang P, Zhu ZY, Li JY, Zhou SN, Wang SC, Wang YY, Yang JK.
    Mol Cell Endocrinol; 2014 Jul 05; 392(1-2):163-72. PubMed ID: 24887517
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  • 18. Role of ALK5/Smad2/3 and MEK1/ERK Signaling in Transforming Growth Factor Beta 1-modulated Growth, Collagen Turnover, and Differentiation of Stem Cells from Apical Papilla of Human Tooth.
    Chang HH, Chang MC, Wu IH, Huang GF, Huang WL, Wang YL, Lee SY, Yeh CY, Guo MK, Chan CP, Hsien HC, Jeng JH.
    J Endod; 2015 Aug 05; 41(8):1272-80. PubMed ID: 26001858
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  • 19. VEGF suppresses epithelial-mesenchymal transition by inhibiting the expression of Smad3 and miR‑192, a Smad3-dependent microRNA.
    Hong JP, Li XM, Li MX, Zheng FL.
    Int J Mol Med; 2013 Jun 05; 31(6):1436-42. PubMed ID: 23588932
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  • 20. Effect of progesterone on Smad signaling and TGF-β/Smad-regulated genes in lung epithelial cells.
    Kunzmann S, Ottensmeier B, Speer CP, Fehrholz M.
    PLoS One; 2018 Jun 05; 13(7):e0200661. PubMed ID: 30001393
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