Regenerative Intestinal Stem Cells Induced by Acute and Chronic Injury: The Saving Grace of the Epithelium?

Rees, William D.; Tandun, Rene; Yau, Enoch; Zachos, Nicholas C.; Steiner, Theodore S.

doi:10.3389/fcell.2020.583919

Cited by 42 publications

(32 citation statements)

References 125 publications

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“…46 Previously, intestinal epithelial repair was studied after acute injury after ablation of LGR5þ ISCs by irradiation, chemotherapeutic agents, or diphtheria toxin. 34,[47][48][49][50] When active ISCs are selectively lost in acute injury models, reserve ISCs become activated and converted to active ISCs. The epithelial repair is completed as the active ISC pool is replenished by reserve ISCs and all epithelial cell types are regenerated.…”

Section: Discussionmentioning

confidence: 99%

TNFα Induces LGR5+ Stem Cell Dysfunction In Patients With Crohn’s Disease

Lee

Joung

et al. 2022

Cellular and Molecular Gastroenterology and Hepatology

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Section: Discussionmentioning

confidence: 99%

TNFα Induces LGR5+ Stem Cell Dysfunction In Patients With Crohn’s Disease

Lee

Joung

et al. 2022

Cellular and Molecular Gastroenterology and Hepatology

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“…The cells at the +4 position have a unique transcriptional profile, which includes the expression of HOPX [ 26 , 27 ]. These +4 cells have previously been described as part of the resting stem cell population, which rebuilds Lgr5+ CBCs upon injury and has been found to be radiation resistant, implying that they can survive crypt injury and replace their damaged counterparts [ 28 ]. Furthermore, HOPX-positive intestinal stem cells in the +4 locations are resistant to anoikis, a type of apoptosis caused by aberrant cell matrix connections [ 29 ].…”

Section: Hopx In Development and Differentiationmentioning

confidence: 99%

HOPX: A Unique Homeodomain Protein in Development and Tumor Suppression

Gokulan

Yap

Paterson

2022

Cancers

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Homeobox genes are master regulators of morphogenesis and differentiation by acting at the top of genetic hierarchies and their deregulation is associated with a variety of human diseases. They usually contain a highly conserved sequence that codes for the homeodomain of the protein, a specialized motif with three α helices and an N-terminal arm that aids in DNA binding. However, one homeodomain protein, HOPX, is unique among its family members in that it lacks the capacity to bind DNA and instead functions by interacting with transcriptional regulators. HOPX plays crucial roles in organogenesis and is expressed in both embryonic and adult stem cells. Loss of HOPX expression is common in cancer, where it functions primarily as a tumor suppressor gene. In this review, we describe the function of HOPX in development and discuss its role in carcinogenesis.

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“…An area of considerable interest in gastrointestinal biology is the link between epithelial differentiation and regeneration 21,114,115 . Although it was long thought that dedicated "reserve" stem cells at the +4/+5 region, marked by expression of genes such as Bmi1 and mTert, replenished the stem cell compartment in intestinal epithelial regeneration, recent data have indicated that these cells are most likely enteroendocrine cells with the ability to de-differentiate into stem cells following injury 8,22 .…”

Section: Discussionmentioning

confidence: 99%

MTG16 (CBFA2T3) regulates colonic epithelial differentiation, colitis, and tumorigenesis by repressing E protein transcription factors

Brown

Jacobse

Anant

et al. 2021

Preprint

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Aberrant epithelial differentiation and regeneration pathways contribute to colon pathologies including inflammatory bowel disease (IBD) and colitis-associated cancer (CAC). MTG16 (also known as CBFA2T3) is a transcriptional corepressor expressed in the colonic epithelium. MTG16 interaction partners include E box-binding basic helix-loop-helix transcription factors (E proteins). MTG16-deficient mice exhibit worse colitis and increased tumor burden in inflammatory carcinogenesis. In this study, we sought to understand the role of MTG16 colonic epithelial homeostasis and the mechanisms by which MTG16 protects the epithelium in colitis and CAC. We demonstrated that MTG16 deficiency enabled enteroendocrine cell differentiation from secretory precursor cells at the expense of goblet cells. Transcriptomic analysis implicated dysregulated E protein function in MTG16-deficient colon crypts. Using a novel mouse model with a point mutation that disrupts MTG16:E protein complex formation (Mtg16P209T), we established that enteroendocrine:goblet cell balance was dependent on MTG16:E protein interactions and that the shift in lineage allocation was associated with enhanced expression of Neurog3, the central driver of enteroendocrine lineage specification. Furthermore, Mtg16 was upregulated in the previously described Ascl2+, de-differentiating cells that replenish the stem cell compartment in response to colon injury. Mtg16 expression was also increased in dextran sulfate sodium (DSS)-treated mouse colon crypts and in IBD patients compared to unaffected controls. We determined that the effects of MTG16 in regeneration are also dependent on its repression of E proteins, as the colonic epithelium failed to regenerate following DSS-induced injury in our novel mutant mouse model. Finally, we revealed that uncoupling MTG16:E protein interactions contributes to the enhanced tumorigenicity in Mtg16-/- colon in the azoxymethane(AOM)/DSS-induced model of CAC. Collectively, our results demonstrate that MTG16, via its repression of E protein targets, is a key regulator of cell fate decisions during colonic differentiation and regeneration.

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Regenerative Intestinal Stem Cells Induced by Acute and Chronic Injury: The Saving Grace of the Epithelium?

Cited by 42 publications

References 125 publications

TNFα Induces LGR5+ Stem Cell Dysfunction In Patients With Crohn’s Disease

TNFα Induces LGR5+ Stem Cell Dysfunction In Patients With Crohn’s Disease

HOPX: A Unique Homeodomain Protein in Development and Tumor Suppression

MTG16 (CBFA2T3) regulates colonic epithelial differentiation, colitis, and tumorigenesis by repressing E protein transcription factors

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