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Journal Abstract Search

905 related items for PubMed ID: 26884454

  • 1. The matricellular protein CCN1 enhances TGF-β1/SMAD3-dependent profibrotic signaling in fibroblasts and contributes to fibrogenic responses to lung injury.
    Kurundkar AR, Kurundkar D, Rangarajan S, Locy ML, Zhou Y, Liu RM, Zmijewski J, Thannickal VJ.
    FASEB J; 2016 Jun; 30(6):2135-50. PubMed ID: 26884454
    [Abstract] [Full Text] [Related]

  • 2. USP7 Promotes TGF-β1 Signaling by De-Ubiquitinating Smad2/Smad3 in Pulmonary Fibrosis.
    Tang F, Gong H, Ke T, Yang W, Yang Y, Liu Z.
    Discov Med; 2024 Aug; 36(187):1616-1626. PubMed ID: 39190377
    [Abstract] [Full Text] [Related]

  • 3. TGF-β-induced profibrotic signaling is regulated in part by the WNT receptor Frizzled-8.
    Spanjer AI, Baarsma HA, Oostenbrink LM, Jansen SR, Kuipers CC, Lindner M, Postma DS, Meurs H, Heijink IH, Gosens R, Königshoff M.
    FASEB J; 2016 May; 30(5):1823-35. PubMed ID: 26849959
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  • 4. Novel Mechanisms for the Antifibrotic Action of Nintedanib.
    Rangarajan S, Kurundkar A, Kurundkar D, Bernard K, Sanders YY, Ding Q, Antony VB, Zhang J, Zmijewski J, Thannickal VJ.
    Am J Respir Cell Mol Biol; 2016 Jan; 54(1):51-9. PubMed ID: 26072676
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  • 5. (Pro)renin Receptor Knockdown Attenuates Liver Fibrosis Through Inactivation of ERK/TGF-β1/SMAD3 Pathway.
    Hsieh YC, Lee KC, Lei HJ, Lan KH, Huo TI, Lin YT, Chan CC, Schnabl B, Huang YH, Hou MC, Lin HC.
    Cell Mol Gastroenterol Hepatol; 2021 Jan; 12(3):813-838. PubMed ID: 34087453
    [Abstract] [Full Text] [Related]

  • 6. Transforming growth factor β1 (TGFβ1)-induced CD44V6-NOX4 signaling in pathogenesis of idiopathic pulmonary fibrosis.
    Ghatak S, Hascall VC, Markwald RR, Feghali-Bostwick C, Artlett CM, Gooz M, Bogatkevich GS, Atanelishvili I, Silver RM, Wood J, Thannickal VJ, Misra S.
    J Biol Chem; 2017 Jun 23; 292(25):10490-10519. PubMed ID: 28389561
    [Abstract] [Full Text] [Related]

  • 7. Hydroxysafflor yellow A inhibits TGF-β1-induced activation of human fetal lung fibroblasts in vitro.
    Pan R, Zhang Y, Zang B, Tan L, Jin M.
    J Pharm Pharmacol; 2016 Oct 23; 68(10):1320-30. PubMed ID: 27457091
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  • 9. Predisposition for disrepair in the aged lung.
    Sueblinvong V, Neujahr DC, Mills ST, Roser-Page S, Ritzenthaler JD, Guidot D, Rojas M, Roman J.
    Am J Med Sci; 2012 Jul 23; 344(1):41-51. PubMed ID: 22173045
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  • 12. The inhibitory effect of ginsan on TGF-β mediated fibrotic process.
    Ahn JY, Kim MH, Lim MJ, Park S, Lee SL, Yun YS, Song JY.
    J Cell Physiol; 2011 May 23; 226(5):1241-7. PubMed ID: 20945375
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  • 15. Specific Features of Fibrotic Lung Fibroblasts Highly Sensitive to Fibrotic Processes Mediated via TGF-β-ERK5 Interaction.
    Kadoya K, Togo S, Tulafu M, Namba Y, Iwai M, Watanabe J, Okabe T, Jin J, Kodama Y, Kitamura H, Ogura T, Kitamura N, Ikeo K, Takeda T, Kondo N, Takahashi K.
    Cell Physiol Biochem; 2019 May 23; 52(4):822-837. PubMed ID: 30946557
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  • 18. Transforming growth factor-β1 downregulates vascular endothelial growth factor-D expression in human lung fibroblasts via the Jun NH2-terminal kinase signaling pathway.
    Cui Y, Osorio JC, Risquez C, Wang H, Shi Y, Gochuico BR, Morse D, Rosas IO, El-Chemaly S.
    Mol Med; 2014 Mar 20; 20(1):120-34. PubMed ID: 24515257
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  • 19. Glycosyltransferases and glycosaminoglycans in bleomycin and transforming growth factor-β1-induced pulmonary fibrosis.
    Venkatesan N, Tsuchiya K, Kolb M, Farkas L, Bourhim M, Ouzzine M, Ludwig MS.
    Am J Respir Cell Mol Biol; 2014 Mar 20; 50(3):583-94. PubMed ID: 24127863
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  • 20. Identification of TGF-β receptor-1 as a key regulator of carbon nanotube-induced fibrogenesis.
    Mishra A, Stueckle TA, Mercer RR, Derk R, Rojanasakul Y, Castranova V, Wang L.
    Am J Physiol Lung Cell Mol Physiol; 2015 Oct 15; 309(8):L821-33. PubMed ID: 26472812
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