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Journal Abstract Search

198 related items for PubMed ID: 30229330

  • 1. Carbon nanotubes and crystalline silica induce matrix remodeling and contraction by stimulating myofibroblast transformation in a three-dimensional culture of human pulmonary fibroblasts: role of dimension and rigidity.
    Hindman B, Ma Q.
    Arch Toxicol; 2018 Nov; 92(11):3291-3305. PubMed ID: 30229330
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  • 3. Osteopontin enhances multi-walled carbon nanotube-triggered lung fibrosis by promoting TGF-β1 activation and myofibroblast differentiation.
    Dong J, Ma Q.
    Part Fibre Toxicol; 2017 Jun 08; 14(1):18. PubMed ID: 28595626
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  • 4. Myofibroblasts and lung fibrosis induced by carbon nanotube exposure.
    Dong J, Ma Q.
    Part Fibre Toxicol; 2016 Nov 04; 13(1):60. PubMed ID: 27814727
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  • 5. Multiwalled carbon nanotubes induce a fibrogenic response by stimulating reactive oxygen species production, activating NF-κB signaling, and promoting fibroblast-to-myofibroblast transformation.
    He X, Young SH, Schwegler-Berry D, Chisholm WP, Fernback JE, Ma Q.
    Chem Res Toxicol; 2011 Dec 19; 24(12):2237-48. PubMed ID: 22081859
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  • 6. TIMP1 promotes multi-walled carbon nanotube-induced lung fibrosis by stimulating fibroblast activation and proliferation.
    Dong J, Ma Q.
    Nanotoxicology; 2017 Feb 19; 11(1):41-51. PubMed ID: 27852133
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  • 7. Genome-wide DNA methylation analysis in lung fibroblasts co-cultured with silica-exposed alveolar macrophages.
    Li J, Yao W, Zhang L, Bao L, Chen H, Wang D, Yue Z, Li Y, Zhang M, Hao C.
    Respir Res; 2017 May 12; 18(1):91. PubMed ID: 28499430
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  • 12. Integrin-β1 aggravates paraquat-induced pulmonary fibrosis by activation of FAK/ ERK1/2 pathway depending on fibrotic ECM.
    Wang Z, Yang J, Tu M, Zhang R, Ma Y, Jin H, Weng J, Xie M, Wang L, Wang Z, Chen C.
    Int Immunopharmacol; 2024 Nov 15; 141():112947. PubMed ID: 39213871
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  • 14. Hyaluronan Controls the Deposition of Fibronectin and Collagen and Modulates TGF-β1 Induction of Lung Myofibroblasts.
    Evanko SP, Potter-Perigo S, Petty LJ, Workman GA, Wight TN.
    Matrix Biol; 2015 Mar 15; 42():74-92. PubMed ID: 25549589
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  • 15. Occupational nanosafety considerations for carbon nanotubes and carbon nanofibers.
    Castranova V, Schulte PA, Zumwalde RD.
    Acc Chem Res; 2013 Mar 19; 46(3):642-9. PubMed ID: 23210709
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  • 16. Uptake of silica and carbon nanotubes by human macrophages/monocytes induces activation of fibroblasts in vitro -- potential implication for pathogenesis of inflammation and fibrotic diseases.
    Guo X, Jagannath C, Espitia MG, Zhou X.
    Int J Immunopathol Pharmacol; 2012 Mar 19; 25(3):713-9. PubMed ID: 23058021
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  • 17. Direct fibrogenic effects of dispersed single-walled carbon nanotubes on human lung fibroblasts.
    Wang L, Mercer RR, Rojanasakul Y, Qiu A, Lu Y, Scabilloni JF, Wu N, Castranova V.
    J Toxicol Environ Health A; 2010 Mar 19; 73(5):410-22. PubMed ID: 20155582
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  • 18. The pro-fibrotic properties of transforming growth factor on human fibroblasts are counteracted by caffeic acid by inhibiting myofibroblast formation and collagen synthesis.
    Mia MM, Bank RA.
    Cell Tissue Res; 2016 Mar 19; 363(3):775-89. PubMed ID: 26453399
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  • 19. Classical transient receptor potential 6 (TRPC6) channels support myofibroblast differentiation and development of experimental pulmonary fibrosis.
    Hofmann K, Fiedler S, Vierkotten S, Weber J, Klee S, Jia J, Zwickenpflug W, Flockerzi V, Storch U, Yildirim AÖ, Gudermann T, Königshoff M, Dietrich A.
    Biochim Biophys Acta Mol Basis Dis; 2017 Feb 19; 1863(2):560-568. PubMed ID: 27932059
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  • 20. Pirfenidone inhibits myofibroblast differentiation and lung fibrosis development during insufficient mitophagy.
    Kurita Y, Araya J, Minagawa S, Hara H, Ichikawa A, Saito N, Kadota T, Tsubouchi K, Sato N, Yoshida M, Kobayashi K, Ito S, Fujita Y, Utsumi H, Yanagisawa H, Hashimoto M, Wakui H, Yoshii Y, Ishikawa T, Numata T, Kaneko Y, Asano H, Yamashita M, Odaka M, Morikawa T, Nakayama K, Kuwano K.
    Respir Res; 2017 Jun 02; 18(1):114. PubMed ID: 28577568
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