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Journal Abstract Search

265 related items for PubMed ID: 28726765

  • 1. Oleic Acid Uptake Reveals the Rescued Enterocyte Phenotype of Colon Cancer Caco-2 by HT29-MTX Cells in Co-Culture Mode.
    Berger E, Nassra M, Atgié C, Plaisancié P, Géloën A.
    Int J Mol Sci; 2017 Jul 20; 18(7):. PubMed ID: 28726765
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  • 2. Adipocytes as lipid sensors of oleic acid transport through a functional Caco-2/HT29-MTX intestinal barrier.
    Berger E, Géloën A.
    Adipocyte; 2019 Dec 20; 8(1):83-97. PubMed ID: 30905315
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  • 4. Towards the characterization of an in vitro triple co-culture intestine cell model for permeability studies.
    Araújo F, Sarmento B.
    Int J Pharm; 2013 Dec 15; 458(1):128-34. PubMed ID: 24120728
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  • 5. Different responses of Fe transporters in Caco-2/HT29-MTX cocultures than in independent Caco-2 cell cultures.
    Laparra JM, Glahn RP, Miller DD.
    Cell Biol Int; 2009 Sep 15; 33(9):971-7. PubMed ID: 19524686
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  • 9. Role of enteric glial cells in the toxicity of phycotoxins: Investigation with a tri-culture intestinal cell model.
    Reale O, Bodi D, Huguet A, Fessard V.
    Toxicol Lett; 2021 Oct 15; 351():89-98. PubMed ID: 34461197
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  • 11. Characterization of Caco-2 and HT29-MTX cocultures in an in vitro digestion/cell culture model used to predict iron bioavailability.
    Mahler GJ, Shuler ML, Glahn RP.
    J Nutr Biochem; 2009 Jul 15; 20(7):494-502. PubMed ID: 18715773
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  • 12. Intestinal transport of methylmercury and inorganic mercury in various models of Caco-2 and HT29-MTX cells.
    Vázquez M, Calatayud M, Vélez D, Devesa V.
    Toxicology; 2013 Sep 15; 311(3):147-53. PubMed ID: 23793072
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  • 13. Parallels between global transcriptional programs of polarizing Caco-2 intestinal epithelial cells in vitro and gene expression programs in normal colon and colon cancer.
    Sääf AM, Halbleib JM, Chen X, Yuen ST, Leung SY, Nelson WJ, Brown PO.
    Mol Biol Cell; 2007 Nov 15; 18(11):4245-60. PubMed ID: 17699589
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  • 14. Selective upregulation of the expression of plasma membrane calcium ATPase isoforms upon differentiation and 1,25(OH)2D3-vitamin treatment of colon cancer cells.
    Ribiczey P, Papp B, Homolya L, Enyedi Á, Kovács T.
    Biochem Biophys Res Commun; 2015 Aug 14; 464(1):189-94. PubMed ID: 26116539
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  • 15. Usefulness of Caco-2/HT29-MTX and Caco-2/HT29-MTX/Raji B Coculture Models To Predict Intestinal and Colonic Permeability Compared to Caco-2 Monoculture.
    Lozoya-Agullo I, Araújo F, González-Álvarez I, Merino-Sanjuán M, González-Álvarez M, Bermejo M, Sarmento B.
    Mol Pharm; 2017 Apr 03; 14(4):1264-1270. PubMed ID: 28263609
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  • 16. Use of hydrogel scaffolds to develop an in vitro 3D culture model of human intestinal epithelium.
    Dosh RH, Essa A, Jordan-Mahy N, Sammon C, Le Maitre CL.
    Acta Biomater; 2017 Oct 15; 62():128-143. PubMed ID: 28859901
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  • 18. Dissecting stromal-epithelial interactions in a 3D in vitro cellularized intestinal model for permeability studies.
    Pereira C, Araújo F, Barrias CC, Granja PL, Sarmento B.
    Biomaterials; 2015 Jul 15; 56():36-45. PubMed ID: 25934277
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  • 19. Comparison of the Caco-2, HT-29 and the mucus-secreting HT29-MTX intestinal cell models to investigate Salmonella adhesion and invasion.
    Gagnon M, Zihler Berner A, Chervet N, Chassard C, Lacroix C.
    J Microbiol Methods; 2013 Sep 15; 94(3):274-9. PubMed ID: 23835135
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  • 20. Evaluation of drug permeation under fed state conditions using mucus-covered Caco-2 cell epithelium.
    Birch D, Diedrichsen RG, Christophersen PC, Mu H, Nielsen HM.
    Eur J Pharm Sci; 2018 Jun 15; 118():144-153. PubMed ID: 29524592
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