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1.
Biotechnol Bioeng ; 117(2): 556-566, 2020 02.
Artículo en Inglés | MEDLINE | ID: mdl-31598957

RESUMEN

An intestine-on-chip has been developed to study intestinal physiology and pathophysiology as well as intestinal transport absorption and toxicity studies in a controlled and human similar environment. Here, we report that dynamic culture of an intestine-on-chip enhances extracellular matrix (ECM) remodeling of the stroma, basement membrane production and speeds up epithelial differentiation. We developed a three-dimensional human intestinal stromal equivalent composed of human intestinal subepithelial myofibroblasts embedded in their own ECM. Then, we cultured human colon carcinoma-derived cells in both static and dynamic conditions in the opportunely designed microfluidic system until the formation of a well-oriented epithelium. This low cost and handy microfluidic device allows to qualitatively and quantitatively detect epithelial polarization and mucus production as well as monitor barrier function and ECM remodeling after nutraceutical treatment.


Asunto(s)
Matriz Extracelular/fisiología , Intestinos , Análisis de Matrices Tisulares , Ingeniería de Tejidos , Diferenciación Celular/fisiología , Células Epiteliales/fisiología , Diseño de Equipo , Humanos , Intestinos/citología , Intestinos/fisiología , Modelos Biológicos , Análisis de Matrices Tisulares/instrumentación , Análisis de Matrices Tisulares/métodos , Ingeniería de Tejidos/instrumentación , Ingeniería de Tejidos/métodos
2.
Biofabrication ; 16(4)2024 Aug 12.
Artículo en Inglés | MEDLINE | ID: mdl-39029501

RESUMEN

Reconstructing the microscale villous organisation and functionality of the small intestine is essential for developingin vitroplatforms tailored for absorption studies as well as for investigating intestinal morphogenesis in development and disease. However, the current fabrication techniques able to mimic the villus-crypt axis poses significant challenges in terms of reconstruction of the complex 3D microarchitecture. These challenges extend beyond mere structural intricacies to encompass the incorporation of diverse cell types and the management of intricate fluid dynamics within the system. Here, we introduce a novel microfluidic device calledIn-Crypts, which integrates a cell-instructive membrane aimed at inducing and guiding Caco-2 cells morphogenesis. Patterned topographical cues embossed onto the porous membrane induce the formation of a well-organized intestinal epithelium, characterized by proliferating crypt-like domains and differentiated villus-like regions. Notably, our cell-instructive porous membrane effectively sustains stem cells development, faithfully replicating the niche environment ofin vivointestinal crypts thus mirroring the cell biogeography observedin vivo. Moreover, by introducing dynamic fluid flow, we provide a faithful recapitulation of the native microenvironmental shear stress experienced by the intestinal epithelium. This stress plays a crucial role in influencing cell behaviour, differentiation, and overall functionality, thus offering a highly realistic model for studying intestinal physiology and pathology. The resulting intestinal epithelium exhibits significantly denser regions of mucus and microvilli, characteristic typically absent in static cultures, upregulating more than 1.5 of the amount expressed in the classical flattened configuration, enhanced epithelial cell differentiation and increased adsorptive surface area. Hence, the innovative design ofIn-Cryptsproves the critical role of employing a cell-instructive membrane in argument the physiological relevance of organs-on-chips. This aspect, among others, will contribute to a more comprehensive understanding of organism function, directly impacting drug discovery and development.


Asunto(s)
Dispositivos Laboratorio en un Chip , Morfogénesis , Humanos , Células CACO-2 , Mucosa Intestinal/metabolismo , Mucosa Intestinal/citología , Diferenciación Celular , Membranas Artificiales , Ingeniería de Tejidos
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