The small intestine bears similar morphology of crypts and villi throughout its length, yet marked regional differences in function are well known. The clinical relevance of these differences is highlighted by the region specific location of many human diseases throughout the bowel. Understanding the mechanisms that result in regional specific intestinal stem cells (ISC) is required to develop therapeutic approaches for restoring regional specific function. Our preliminary data supports the concept that patterning of the intestine occurs early in development and is maintained throughout life at the level of the ISC. Using our recently developed in vitro methods to culture human ISC-derived enteroids (hENO) and conditions that regionally pattern human ES/iPS-derived organoids (HIOs), combined with unique transplantation models, we will determine if intestinal regional identity (rID) is stably maintained by specific transcription factors together with a unique chromatin state within individual ISC. To test this hypothesis, we will define the molecular and cellular carriers of intestinal regional identity, determine whether human hENOs and HIOs maintain stable rID after transplantation and identify the network of molecular determinants of regional identity.
The proposed work utilizes cutting edge technology to characterize the network of molecular determinants of regionalized intestinal stem cells. This work will lead to a deeper understanding of regional influence within intestinal stem cell populations that may contribute to physiological and disease specific difference commonly seen between the proximal and distal intestine.
Rankin, Scott A; McCracken, Kyle W; Luedeke, David M et al. (2018) Timing is everything: Reiterative Wnt, BMP and RA signaling regulate developmental competence during endoderm organogenesis. Dev Biol 434:121-132 |
Lee, Kang Kug; McCauley, Heather A; Broda, Taylor R et al. (2018) Human stomach-on-a-chip with luminal flow and peristaltic-like motility. Lab Chip 18:3079-3085 |
Poling, Holly M; Wu, David; Brown, Nicole et al. (2018) Mechanically induced development and maturation of human intestinal organoids in vivo. Nat Biomed Eng 2:429-442 |
Wells, James M; Watt, Fiona M (2018) Diverse mechanisms for endogenous regeneration and repair in mammalian organs. Nature 557:322-328 |
Lo, Yuan-Hung; Chung, Eunah; Li, Zhaohui et al. (2017) Transcriptional Regulation by ATOH1 and its Target SPDEF in the Intestine. Cell Mol Gastroenterol Hepatol 3:51-71 |
Mahe, Maxime M; Brown, Nicole E; Poling, Holly M et al. (2017) In Vivo Model of Small Intestine. Methods Mol Biol 1597:229-245 |
McCracken, Kyle W; Wells, James M (2017) Mechanisms of embryonic stomach development. Semin Cell Dev Biol 66:36-42 |
McCauley, Heather A; Wells, James M (2017) Pluripotent stem cell-derived organoids: using principles of developmental biology to grow human tissues in a dish. Development 144:958-962 |
McCracken, Kyle W; Aihara, Eitaro; Martin, Baptiste et al. (2017) Wnt/?-catenin promotes gastric fundus specification in mice and humans. Nature 541:182-187 |
Múnera, Jorge O; Sundaram, Nambirajan; Rankin, Scott A et al. (2017) Differentiation of Human Pluripotent Stem Cells into Colonic Organoids via Transient Activation of BMP Signaling. Cell Stem Cell 21:51-64.e6 |
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