The researchers have developed a new way to generate groups of intestinal cells that can be used, among others, to make disease models in the lab to test treatments for diseases affecting the gastrointestinal system. Using human induced pluripotent stem cells, this novel approach combined a variety of techniques that enabled the development of three-dimensional groups of intestinal cells called organoids in vitro, which can expand disease treatment testing in the lab using human cells.
Published in Nature Communications, this process provides a novel platform to improve drug screenings and uncover novel therapies to treat a variety of diseases impacting the intestine, such as inflammatory bowel disease, colon cancer and Cystic Fibrosis.
Researchers used donated human induced pluripotent stem cells (hiPSCs), which are created by reprogramming adult cells into a primitive state. For this study, these cells were pushed to differentiate into intestinal cells using specific growth factors in order to create organoids in a gel. This new protocol allowed the cells to develop without mesenchyme, which typically in other protocols, provides support for the intestinal epithelial cells to grow. By taking out the mesenchyme, the researchers could study exclusively epithelial cells, which make up the intestinal tract.
In addition, using CRISPR technology, the researchers were able to modify and create a novel iPSC stem cell line that glowed green when differentiated into intestinal cells. This allowed the researchers to follow the process of how intestinal cells differentiate in vitro.
Using this new protocol, the researchers generated intestinal organoids from iPSCs containing a mutation that causes Cystic Fibrosis, which typically affects several organs, including the gastrointestinal tract. Using CRISPR technology, the researchers corrected the mutation in the intestinal organoids. The intestinal organoids with the mutation did not respond to a drug while the genetically corrected cells did respond, demonstrating their future potential for disease modeling and therapeutic screening applications.
The protocol developed in this study provides strong evidence to continue using human iPSCs to study development at the cellular level, tissue engineering and disease modeling in order to advance the understanding - and possibilities - of regenerative medicine.
A new protocol to generate intestinal organoids in vitro
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