Chen Xiu-Min, Elisia Ingrid, Kitts David D
Food, Nutrition, and Health, Faculty of Land and Food Systems, University of British Columbia, 2205 East Mall, Vancouver, BC V6T1Z4, Canada.
J Pharmacol Toxicol Methods. 2010 May-Jun;61(3):334-42. doi: 10.1016/j.vascn.2010.02.004. Epub 2010 Feb 13.
The co-culture of Caco-2 and HT29 cells for testing intestinal drug and nutrient transport and metabolism provides the presence of both absorptive and goblet cells, both of which have different culture requirements for optimal growth and function. The research on the co-culture of Caco-2 and HT29 cells is very limited in respect to refining specific conditions that reduce intra- and inter-laboratory variations. In the present study we reported conditions that enable reproducible results to be obtained for drug permeability using in vitro co-culture of Caco-2 and HT29-MTX based on Taguchi experimental design.
The selection of four factors that specified cell culture conditions, namely culture medium, seeding time, seeding density, and Caco-2:HT29-MTX ratio on TEER value and individual permeability coefficients of propranolol, ketoprofen and furosemide was established. Based on the selected conditions for co-culture, we also confirmed the functionality of the final chosen culture condition using nitric oxide as an indicator of intestinal inflammation.
Choice of cell culture time and culture medium represented two of the most important factors that affected TEER values and the permeability coefficients of the model drugs. On the other hand, the seeding density and the Caco-2:HT29-MTX ratio exerted no significant influence on TEER values and the drug permeability coefficients. No absolute optimal cell culture condition could be obtained for all drugs; however subsequent confirmation experiments concluded that excellent precision for TEER values and drug permeability coefficients was obtained from the two operators using the following combination of conditions, namely an initial seeding density of 1 x 10(5) Caco-2 and HT29-MTX cells/cm(2) at a ratio of 9:1, followed by a 21day culture time in MEM medium. Finally, functionality of the co-culture model system using the above selected in vitro conditions resulted in comparable nitric oxide synthesis to that of a Caco-2 cell monolayer.
Taguchi experimental design enabled us to define a combination of in vitro culture conditions that resulted in excellent operator reproducibility for determining drug permeability coefficients in a Caco-2 and HT29-MTX co-culture system. Moreover, the selected conditions used in co-culture of absorptive and goblet intestinal cells did not compromise the synthesis of nitric oxide, an indicator of inflammation, measured in Caco-2 monolayers.
用于测试肠道药物及营养物质转运与代谢的Caco-2细胞与HT29细胞共培养体系中同时存在吸收细胞和杯状细胞,二者对于最佳生长和功能有着不同的培养要求。在优化可减少实验室内和实验室间差异的具体条件方面,关于Caco-2细胞与HT29细胞共培养的研究非常有限。在本研究中,我们报告了基于田口实验设计,通过Caco-2细胞与HT29-MTX细胞的体外共培养获得可重复的药物渗透性结果的条件。
确定了指定细胞培养条件的四个因素,即培养基、接种时间、接种密度以及Caco-2细胞与HT29-MTX细胞的比例对跨上皮电阻(TEER)值以及普萘洛尔、酮洛芬和呋塞米的个体渗透系数的影响。基于选定的共培养条件,我们还以一氧化氮作为肠道炎症指标,证实了最终选定培养条件的功能。
细胞培养时间和培养基的选择是影响TEER值和模型药物渗透系数的两个最重要因素。另一方面,接种密度和Caco-2细胞与HT29-MTX细胞的比例对TEER值和药物渗透系数没有显著影响。无法为所有药物获得绝对最佳的细胞培养条件;然而,后续的验证实验得出结论,两名操作人员使用以下条件组合可获得关于TEER值和药物渗透系数的极佳精密度,即初始接种密度为每平方厘米1×10⁵个Caco-2细胞和HT29-MTX细胞,比例为9:1,随后在MEM培养基中培养21天。最后,使用上述选定的体外条件的共培养模型系统的功能导致一氧化氮合成与Caco-2细胞单层相当。
田口实验设计使我们能够确定体外培养条件的组合,该组合在Caco-2细胞与HT29-MTX细胞共培养体系中测定药物渗透系数时具有出色的操作人员重现性。此外,在吸收性和杯状肠道细胞共培养中使用的选定条件并未损害在Caco-2细胞单层中测量的作为炎症指标的一氧化氮的合成。
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