| Autor: |
Wenda, Zhou, Ying, Chen, Terrence, Roh, Yinan, Lin, Shengjie, Ling, Siwei, Zhao, James D, Lin, Noor, Khalil, Dana M, Cairns, Eleana, Manousiouthakis, Megan, Tse, David L, Kaplan |
| Rok vydání: |
2017 |
| Předmět: |
|
| Zdroj: |
ACS Biomaterials Science & Engineering |
| ISSN: |
2373-9878 |
| Popis: |
The three-dimensional (3D) cultivation of intestinal cells and tissues in dynamic bioreactor systems to represent in vivo intestinal microenvironments is essential for developing regenerative medicine treatments for intestinal diseases. We have previously developed in vitro human intestinal tissue systems using a 3D porous silk scaffold system with intestinal architectures and topographical features for the adhesion, growth, and differentiation of intestinal cells under static culture conditions. In this study, we designed and fabricated a multifunctional bioreactor system that incorporates pre-epithelialized 3D silk scaffolds in a dynamic culture environment for in vitro engineering of human intestine tissues. The bioreactor system allows for control of oxygen levels in perfusion fluids (aerobic simulated intestinal fluid (SIF), microaerobic SIF, and anaerobic SIF), while ensuring control over the mechanical and chemical microenvironments present in native human intestines. The bioreactor system also enables 3D cell culture with spatial separation and cultivation of cocultured epithelial and stromal cells. Preliminary functional analysis of tissues housed in the bioreactor demonstrated that the 3D tissue constructs survived and maintained typical phenotypes of intestinal epithelium, including epithelial tight junction formation, intestinal biomarker expression, microvilli formation, and mucus secretion. The unique combination of a dynamic bioreactor and 3D intestinal constructs offers utility for engineering human intestinal tissues for the study of intestinal diseases and discovery options for new treatments. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
|
