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Literature DB >> 22608824

Intestinal stem cell function in Drosophila and mice.

Abstract

Epithelial cells of the digestive tracts of most animals are short-lived, and are constantly replenished by the progeny of long-lived, resident intestinal stem cells. Proper regulation of intestinal stem cell maintenance, proliferation and differentiation is critical for maintaining gut homeostasis. Here we review recent genetic studies of stem cell-mediated homeostatic growth in the Drosophila midgut and the mouse small intestine, highlighting similarities and differences in the mechanisms that control stem cell proliferation and differentiation.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22608824 PMCID： PMC3426656 DOI： 10.1016/j.gde.2012.04.002

Source DB: PubMed Journal: Curr Opin Genet Dev ISSN： 0959-437X Impact factor: 5.578

57 in total

1. Loss of Apc in vivo immediately perturbs Wnt signaling, differentiation, and migration.

Authors: Owen J Sansom; Karen R Reed; Anthony J Hayes; Heather Ireland; Hannah Brinkmann; Ian P Newton; Eduard Batlle; Patricia Simon-Assmann; Hans Clevers; Inke S Nathke; Alan R Clarke; Douglas J Winton
Journal: Genes Dev Date: 2004-06-15 Impact factor: 11.361

2. Notch signals control the fate of immature progenitor cells in the intestine.

Authors: Silvia Fre; Mathilde Huyghe; Philippos Mourikis; Sylvie Robine; Daniel Louvard; Spyros Artavanis-Tsakonas
Journal: Nature Date: 2005-06-16 Impact factor: 49.962

3. Evidence that stem cells reside in the adult Drosophila midgut epithelium.

Authors: Craig A Micchelli; Norbert Perrimon
Journal: Nature Date: 2005-12-07 Impact factor: 49.962

4. Direct regulation of intestinal fate by Notch.

Authors: Ben Z Stanger; Radhika Datar; L Charles Murtaugh; Douglas A Melton
Journal: Proc Natl Acad Sci U S A Date: 2005-08-17 Impact factor: 11.205

5. Rapid colorectal adenoma formation initiated by conditional targeting of the Apc gene.

Authors: H Shibata; K Toyama; H Shioya; M Ito; M Hirota; S Hasegawa; H Matsumoto; H Takano; T Akiyama; K Toyoshima; R Kanamaru; Y Kanegae; I Saito; Y Nakamura; K Shiba; T Noda
Journal: Science Date: 1997-10-03 Impact factor: 47.728

6. Crypt-restricted proliferation and commitment to the Paneth cell lineage following Apc loss in the mouse intestine.

Authors: Pauline Andreu; Sabine Colnot; Cécile Godard; Sophie Gad; Philippe Chafey; Michiko Niwa-Kawakita; Pierre Laurent-Puig; Axel Kahn; Sylvie Robine; Christine Perret; Béatrice Romagnolo
Journal: Development Date: 2005-02-16 Impact factor: 6.868

7. Intestinal polyposis in mice with a dominant stable mutation of the beta-catenin gene.

Authors: N Harada; Y Tamai; T Ishikawa; B Sauer; K Takaku; M Oshima; M M Taketo
Journal: EMBO J Date: 1999-11-01 Impact factor: 11.598

8. Inducible Cre-mediated control of gene expression in the murine gastrointestinal tract: effect of loss of beta-catenin.

Authors: Heather Ireland; Richard Kemp; Carol Houghton; Louise Howard; Alan R Clarke; Owen J Sansom; Douglas J Winton
Journal: Gastroenterology Date: 2004-05 Impact factor: 22.682

9. Depletion of epithelial stem-cell compartments in the small intestine of mice lacking Tcf-4.

Authors: V Korinek; N Barker; P Moerer; E van Donselaar; G Huls; P J Peters; H Clevers
Journal: Nat Genet Date: 1998-08 Impact factor: 38.330

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

72 in total

Review 1. Whole-mount immunostaining of the adult Drosophila gastrointestinal tract.

Authors: Craig A Micchelli
Journal: Methods Date: 2014-03-27 Impact factor: 3.608

2. Stimulating cROSstalk between commensal bacteria and intestinal stem cells.

Authors: Parthive H Patel; Julieta A Maldera; Bruce A Edgar
Journal: EMBO J Date: 2013-11-05 Impact factor: 11.598

3. Intestinal stem cells and stem cell-based therapy for intestinal diseases.

Authors: Mahmoud Shaaban Mohamed; Yun Chen; Chao-Ling Yao
Journal: Cytotechnology Date: 2014-07-01 Impact factor: 2.058

4. The transcription factor Hey and nuclear lamins specify and maintain cell identity.

Authors: Naama Flint Brodsly; Eliya Bitman-Lotan; Olga Boico; Adi Shafat; Maria Monastirioti; Manfred Gessler; Christos Delidakis; Hector Rincon-Arano; Amir Orian
Journal: Elife Date: 2019-07-16 Impact factor: 8.140

5. Intrinsic regulation of enteroendocrine fate by Numb.

Authors: Jérémy Sallé; Louis Gervais; Benjamin Boumard; Marine Stefanutti; Katarzyna Siudeja; Allison J Bardin
Journal: EMBO J Date: 2017-05-22 Impact factor: 11.598

6. Notch and EGFR regulate apoptosis in progenitor cells to ensure gut homeostasis in Drosophila.

Authors: Tobias Reiff; Zeus A Antonello; Esther Ballesta-Illán; Laura Mira; Salvador Sala; Maria Navarro; Luis M Martinez; Maria Dominguez
Journal: EMBO J Date: 2019-09-30 Impact factor: 11.598

7. The role of translationally controlled tumor protein in proliferation of Drosophila intestinal stem cells.

Authors: Young V Kwon; Bingqing Zhao; Chiwei Xu; Jiae Lee; Chiao-Lin Chen; Arunachalam Vinayagam; Bruce A Edgar; Norbert Perrimon
Journal: Proc Natl Acad Sci U S A Date: 2019-12-16 Impact factor: 11.205

Review 8. Drosophila melanogaster: a model and a tool to investigate malignancy and identify new therapeutics.

Authors: Cayetano Gonzalez
Journal: Nat Rev Cancer Date: 2013-02-07 Impact factor: 60.716

9. Stem cells in the context of evolution and development.

Authors: Volker Hartenstein
Journal: Dev Genes Evol Date: 2012-12-06 Impact factor: 0.900

10. Slit/Robo signaling regulates cell fate decisions in the intestinal stem cell lineage of Drosophila.

Authors: Benoît Biteau; Heinrich Jasper
Journal: Cell Rep Date: 2014-06-12 Impact factor: 9.423