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. 2022 Nov;163(5):1391-1406.e24.
doi: 10.1053/j.gastro.2022.07.081. Epub 2022 Aug 11.

Identification of Quiescent LGR5+ Stem Cells in the Human Colon

Keiko Ishikawa  1 Shinya Sugimoto  1 Mayumi Oda  2 Masayuki Fujii  2 Sirirat Takahashi  2 Yuki Ohta  2 Ai Takano  2 Kazuhiro Ishimaru  2 Mami Matano  2 Kosuke Yoshida  1 Hikaru Hanyu  2 Kohta Toshimitsu  2 Kazuaki Sawada  3 Mariko Shimokawa  2 Megumu Saito  4 Kenta Kawasaki  1 Ryota Ishii  5 Koji Taniguchi  6 Takeshi Imamura  7 Takanori Kanai  8 Toshiro Sato  9
Affiliations
Free article

Identification of Quiescent LGR5+ Stem Cells in the Human Colon

Keiko Ishikawa et al. Gastroenterology. 2022 Nov.
Free article

Abstract

Background & aims: In the mouse intestinal epithelium, Lgr5+ stem cells are vulnerable to injury, owing to their predominantly cycling nature, and their progenies de-differentiate to replenish the stem cell pool. However, how human colonic stem cells behave in homeostasis and during regeneration remains unknown.

Methods: Transcriptional heterogeneity among colonic epithelial cells was analyzed by means of single-cell RNA sequencing analysis of human and mouse colonic epithelial cells. To trace the fate of human colonic stem or differentiated cells, we generated LGR5-tdTomato, LGR5-iCasase9-tdTomato, LGR5-split-Cre, and KRT20-ERCreER knock-in human colon organoids via genome engineering. p27+ dormant cells were further visualized with the p27-mVenus reporter. To analyze the dynamics of human colonic stem cells in vivo, we orthotopically xenotransplanted fluorescence-labeled human colon organoids into immune-deficient mice. The cell cycle dynamics in xenograft cells were evaluated using 5-ethynyl-2'-deoxyuridine pulse-chase analysis. The clonogenic capacity of slow-cycling human stem cells or differentiated cells was analyzed in the context of homeostasis, LGR5 ablation, and 5-fluorouracil-induced mucosal injury.

Results: Single-cell RNA sequencing analysis illuminated the presence of nondividing LGR5+ stem cells in the human colon. Visualization and lineage tracing of slow-cycling LGR5+p27+ cells and orthotopic xenotransplantation validated their homeostatic lineage-forming capability in vivo, which was augmented by 5-FU-induced mucosal damage. Transforming growth factor-β signaling regulated the quiescent state of LGR5+ cells. Despite the plasticity of differentiated KRT20+ cells, they did not display clonal growth after 5-FU-induced injury, suggesting that occupation of the niche environment by LGR5+p27+ cells prevented neighboring differentiated cells from de-differentiating.

Conclusions: Our results highlight the quiescent nature of human LGR5+ colonic stem cells and their contribution to post-injury regeneration.

Keywords: Intestinal Stem Cell; Organoids; Slow-Cycling Stem Cell; TGF-β Signaling.

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