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Literature DB >> 22580826

Intestinal stem cells: no longer immortal but ever so clever....

Abstract

To maintain tissue homeostasis, stem cells must balance self-renewal with differentiation. In some stem cell lineages this process is 'hard-wired' by the asymmetric partitioning of determinants at division, such that one stem cell daughter always remains pluripotent and other differentiates. But in a dynamic tissue like the intestinal epithelium, which might need to repair itself following an infection or expand to digest the fall harvest, this balancing act requires more flexibility. Recent studies of intestinal stem cell (ISC) lineages in the fruit fly and mouse provide new insights into how this plasticity is achieved. The mechanisms in these two homologous but rather different organs have remarkable similarities, and so are likely relevant to how stem cell pools are controlled in organs other than the intestine.

Entities: Disease Species

Mesh：

Year: 2012 PMID： 22580826 PMCID： PMC3365422 DOI： 10.1038/emboj.2012.133

Source DB: PubMed Journal: EMBO J ISSN： 0261-4189 Impact factor: 11.598

13 in total

1. Intestinal crypt homeostasis results from neutral competition between symmetrically dividing Lgr5 stem cells.

Authors: Hugo J Snippert; Laurens G van der Flier; Toshiro Sato; Johan H van Es; Maaike van den Born; Carla Kroon-Veenboer; Nick Barker; Allon M Klein; Jacco van Rheenen; Benjamin D Simons; Hans Clevers
Journal: Cell Date: 2010-10-01 Impact factor: 41.582

2. Single Lgr5 stem cells build crypt-villus structures in vitro without a mesenchymal niche.

Authors: Toshiro Sato; Robert G Vries; Hugo J Snippert; Marc van de Wetering; Nick Barker; Daniel E Stange; Johan H van Es; Arie Abo; Pekka Kujala; Peter J Peters; Hans Clevers
Journal: Nature Date: 2009-03-29 Impact factor: 49.962

3. Cytokine/Jak/Stat signaling mediates regeneration and homeostasis in the Drosophila midgut.

Authors: Huaqi Jiang; Parthive H Patel; Alexander Kohlmaier; Marc O Grenley; Donald G McEwen; Bruce A Edgar
Journal: Cell Date: 2009-06-26 Impact factor: 41.582

4. Paracrine Wingless signalling controls self-renewal of Drosophila intestinal stem cells.

Authors: Guonan Lin; Na Xu; Rongwen Xi
Journal: Nature Date: 2008-09-21 Impact factor: 49.962

5. Altered modes of stem cell division drive adaptive intestinal growth.

Authors: Lucy Erin O'Brien; Sarah S Soliman; Xinghua Li; David Bilder
Journal: Cell Date: 2011-10-28 Impact factor: 41.582

6. Distinct levels of Notch activity for commitment and terminal differentiation of stem cells in the adult fly intestine.

Authors: Carolina N Perdigoto; Francois Schweisguth; Allison J Bardin
Journal: Development Date: 2011-09-28 Impact factor: 6.868

7. Paneth cells constitute the niche for Lgr5 stem cells in intestinal crypts.

Authors: Toshiro Sato; Johan H van Es; Hugo J Snippert; Daniel E Stange; Robert G Vries; Maaike van den Born; Nick Barker; Noah F Shroyer; Marc van de Wetering; Hans Clevers
Journal: Nature Date: 2010-11-28 Impact factor: 49.962

8. Paracrine unpaired signaling through the JAK/STAT pathway controls self-renewal and lineage differentiation of drosophila intestinal stem cells.

Authors: Guonan Lin; Na Xu; Rongwen Xi
Journal: J Mol Cell Biol Date: 2009-09-30 Impact factor: 6.216

9. Multipotent Drosophila intestinal stem cells specify daughter cell fates by differential notch signaling.

Authors: Benjamin Ohlstein; Allan Spradling
Journal: Science Date: 2007-02-16 Impact factor: 47.728

10. The adult Drosophila posterior midgut is maintained by pluripotent stem cells.

Authors: Benjamin Ohlstein; Allan Spradling
Journal: Nature Date: 2005-12-07 Impact factor: 49.962

7 in total

1. Simultaneous control of stemness and differentiation by the transcription factor Escargot in adult stem cells: How can we tease them apart?

Authors: Mariano A Loza-Coll; D Leanne Jones
Journal: Fly (Austin) Date: 2016-04-14 Impact factor: 2.160

2. Asymmetric cell division during T cell development controls downstream fate.

Authors: Kim Pham; Raz Shimoni; Mirren Charnley; Mandy J Ludford-Menting; Edwin D Hawkins; Kelly Ramsbottom; Jane Oliaro; David Izon; Stephen B Ting; Joseph Reynolds; Grant Lythe; Carmen Molina-Paris; Heather Melichar; Ellen Robey; Patrick O Humbert; Min Gu; Sarah M Russell
Journal: J Cell Biol Date: 2015-09-14 Impact factor: 10.539

3. Auxilin regulates intestinal stem cell proliferation through EGFR.

Authors: Hang Zhao; Xuejing Ren; Ruiyan Kong; Lin Shi; Zhengran Li; Runqi Wang; Rui Ma; Huiqing Zhao; Fuli Liu; Henry C Chang; Chun-Hong Chen; Zhouhua Li
Journal: Stem Cell Reports Date: 2022-04-14 Impact factor: 7.294

4. Phosphorylation of Yun is required for stem cell proliferation and tumorigenesis.

Authors: Xuejing Ren; Hang Zhao; Lin Shi; Zhengran Li; Ruiyan Kong; Rui Ma; Lemei Jia; Shan Lu; Jian-Hua Wang; Meng-Qiu Dong; Yingchun Wang; Zhouhua Li
Journal: Cell Prolif Date: 2022-04-18 Impact factor: 8.755

Review 5. Asymmetry of Cell Division in CFSE-Based Lymphocyte Proliferation Analysis.

Authors: Gennady Bocharov; Tatyana Luzyanina; Jovana Cupovic; Burkhard Ludewig
Journal: Front Immunol Date: 2013-09-02 Impact factor: 7.561

6. Heparan sulfate negatively regulates intestinal stem cell proliferation in Drosophila adult midgut.

Authors: Hubing Ma; Huiqing Zhao; Fuli Liu; Hang Zhao; Ruiyan Kong; Lin Shi; Min Wei; Zhouhua Li
Journal: Biol Open Date: 2019-10-18 Impact factor: 2.422

7. The Yun/Prohibitin complex regulates adult Drosophila intestinal stem cell proliferation through the transcription factor E2F1.

Authors: Hang Zhao; Lin Shi; Zhengran Li; Ruiyan Kong; Xuejing Ren; Rui Ma; Lemei Jia; Meifang Ma; Shan Lu; Ran Xu; Richard Binari; Jian-Hua Wang; Meng-Qiu Dong; Norbert Perrimon; Zhouhua Li
Journal: Proc Natl Acad Sci U S A Date: 2022-02-08 Impact factor: 12.779

7 in total