Quiescence Exit of Tert+ Stem Cells by Wnt/β-Catenin Is Indispensable for Intestinal Regeneration

Kim, Moon Jong; Jung, Youn-Sang; Lien, Esther M.; Jun, Suckjoon; Park, Jae-Il

doi:10.1016/j.celrep.2017.10.118

Cited by 51 publications

(64 citation statements)

References 44 publications

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“…The identity of this cell in human colonoids is currently 262 unknown but under further investigation. Regeneration following cytotoxin-induced injury 263 results in diffuse WNT2B staining with a higher number of WNT2B+ cells, similar to a study 264 that showed upregulation of Wnt2b in mouse intestinal crypts post-irradiation (Suh et al, 2017).…”

supporting

confidence: 66%

“…These findings highlight the importance of epithelial WNT2B and DHH in 29 regulating human colonic regeneration after injury. 30 31Thus far, only three studies have detailed the importance of epithelial Wnts in 55 homeostasis or response to injury in the intestine (O'Connell et al, 2018;Suh et al, 2017; Zou et 56 al., 2018), with most studies focused on the role of mesenchymal Wnts in homeostasis and 57 disease (Gregorieff et al, 2005;Greicius et al, 2018;Koch, 2017; Shoshkes-Carmel et al, 2018; 58 Valenta et al, 2016). The majority of data gained on mouse intestinal injury models suggests that 59 the mesenchymal Wnts are necessary for epithelial regeneration, but did not characterize the role 60 epithelial Wnts may be playing in these processes.…”

mentioning

confidence: 99%

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Epithelial WNT2B and Desert Hedgehog are necessary for human colonoid regeneration after bacterial cytotoxin injury

In¹,

Yin

Doucet

et al. 2018

Preprint

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20Intestinal regeneration and crypt hyperplasia after radiation or pathogen injury relies on Wnt 21 signaling to stimulate stem cell proliferation. Mesenchymal Wnts are essential for homeostasis 22 and regeneration in mice, but the role of epithelial Wnts remains largely uncharacterized. Using 23 the enterohemorrhagic E. coli secreted cytotoxin, EspP to induce injury to human colonoids, we 24 evaluated a simplified, epithelial regeneration model that lacks mesenchymal Wnts. Here, we 25 demonstrate that epithelial-produced WNT2B is upregulated following injury and essential for 26 regeneration. Hedgehog signaling, specifically activation via the ligand Desert Hedgehog 27 (DHH), but not Indian or Sonic Hedgehog, is another driver of regeneration and modulates 28 WNT2B expression. These findings highlight the importance of epithelial WNT2B and DHH in 29 regulating human colonic regeneration after injury. 30 31Thus far, only three studies have detailed the importance of epithelial Wnts in 55 homeostasis or response to injury in the intestine (O'Connell et al., 2018;Suh et al., 2017; Zou et 56 al., 2018), with most studies focused on the role of mesenchymal Wnts in homeostasis and 57 disease (Gregorieff et al., 2005;Greicius et al., 2018;Koch, 2017; Shoshkes-Carmel et al., 2018; 58 Valenta et al., 2016). The majority of data gained on mouse intestinal injury models suggests that 59 the mesenchymal Wnts are necessary for epithelial regeneration, but did not characterize the role 60 epithelial Wnts may be playing in these processes. 61 Human colonoid cultures are a tractable, epithelial-only model that can indefinitely 62 proliferate due to the presence of adult intestinal stem cells (Sato et al., 2011), making them an 63 excellent model to study intestinal crypt injury and hyperplasia. Foodborne bacterial pathogens, 64 such as enterohemorrhagic E. coli (EHEC) or Citrobacter rodentium, a mouse-adapted bacterium 65 that affects the intestine similarly to EHEC, can cause severe damage to the intestinal epithelia, 66 resulting in hyperproliferation and crypt hyperplasia post-infection (Khan et al., 2006; Vallance 67 et al., 2003; Xicohtencatl-Cortes et al., 2007). We have previously characterized the EHEC-68 secreted serine protease cytotoxin, EspP, as an important virulence factor in EHEC infection and 69 colonic epithelial damage (In et al., 2013). Cytotoxins in the family of serine protease 70 autotransporters of Enterobacteriaceae (SPATEs) are secreted by most pathogenic E. coli and 71 have well characterized functions that aid in bacterial adherence and colonization of epithelial 72 cells (Dautin, 2010). Two SPATEs, Pet and EspC, secreted by enteroaggregative E. coli and 73 enteropathogenic E. coli, respectively, cause cytotoxicity to intestinal explants (Henderson et al., 74 1999; Mellies et al., 2001). However, whether or not EspP has cytotoxic properties on intestinal 75 cells has been controversial (Weiss and Brockmeyer, 2012).76spheroids. In contrast, at 48h, the regenerating colonoids more resembled t...

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supporting

confidence: 66%

mentioning

confidence: 99%

Epithelial WNT2B and Desert Hedgehog are necessary for human colonoid regeneration after bacterial cytotoxin injury

In¹,

Yin

Doucet

et al. 2018

Preprint

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“…Taken together, these results demonstrate that Erdr1 stimulates in vitro intestinal epithelial wound closure in mouse and human cells. highly sensitive to DNA damage caused by radiation 39 , and the self-renewal capacity of Lgr5 + ISCs is key to recovery 40,41 . Based on our findings that Erdr1 increased the number of Lgr5 + ISCs and promoted TA cell proliferation in the steady state, we explored whether Erdr1 could mediate similar effects in vivo following radiation-induced injury.…”

Section: Resultsmentioning

confidence: 99%

Erythroid differentiation regulator-1 induced by microbiota in early life drives intestinal stem cell proliferation and regeneration

et al. 2020

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Gut microbiota and their metabolites are instrumental in regulating intestinal homeostasis. However, early-life microbiota associated influences on intestinal development remain incompletely understood. Here we demonstrate that co-housing of germ-free (GF) mice with specific-pathogen free (SPF) mice at weaning (exGF) results in altered intestinal gene expression. Our results reveal that one highly differentially expressed gene, erythroid differentiation regulator-1 (Erdr1), is induced during development in SPF but not GF or exGF mice and localizes to Lgr5 + stem cells and transit amplifying (TA) cells. Erdr1 functions to induce Wnt signaling in epithelial cells, increase Lgr5 + stem cell expansion, and promote intestinal organoid growth. Additionally, Erdr1 accelerates scratch-wound closure in vitro, increases Lgr5 + intestinal stem cell regeneration following radiation-induced injury in vivo, and enhances recovery from dextran sodium sulfate (DSS)-induced colonic damage. Collectively, our findings indicate that early-life microbiota controls Erdr1-mediated intestinal epithelial proliferation and regeneration in response to mucosal damage.

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“…Cancer stemness is not a rigid trait but can be modulated by the Wnt signaling pathway, which controls self-renewal and the multi-differentiation capacity of CSCs [21]. It has been suggested that after IR, Wnt helps to regenerate tissue and Wnt5a promotes glioblastoma stem cell differentiation [52][53][54]. The close link between Wnt signaling, cancer stemness, and EMT may be one mechanism underlying Wnt-induced radioresistance.…”

Section: Wnt Signaling Is Associated With Cscs and Emt And Promotes Rmentioning

confidence: 99%

The Role of Canonical Wnt Signaling in Regulating Radioresistance

Zhao

Tao

et al. 2018

Cell Physiol Biochem

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Radioresistance is a major obstacle in radiotherapy for cancer, and strategies are needed to overcome this problem. Currently, radiotherapy combined with targeted therapy such as inhibitors of phosphoinosotide 3-kinase/Akt and epidermal growth factor receptor signaling have become the focus of studies on radiosensitization. Apart from these two signaling pathways, which promote radioresistance, deregulation of Wnt signaling is also associated with the radioresistance of multiple cancers. Wnts, as important messengers in the tumor microenvironment, are involved in cancer progression mainly via canonical Wnt signaling. Their role in promoting DNA damage repair and inhibiting apoptosis facilitates cancer resistance to radiation. Thus, it seems reasonable to target Wnt signaling as a method for overcoming radioresistance. Many small-molecule inhibitors that target the Wnt signaling pathway have been identified and shown to promote radiosensitization. Therefore, a Wnt signaling inhibitor may help to overcome radioresistance in cancer therapy.

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Quiescence Exit of Tert+ Stem Cells by Wnt/β-Catenin Is Indispensable for Intestinal Regeneration

Cited by 51 publications

References 44 publications

Epithelial WNT2B and Desert Hedgehog are necessary for human colonoid regeneration after bacterial cytotoxin injury

Epithelial WNT2B and Desert Hedgehog are necessary for human colonoid regeneration after bacterial cytotoxin injury

Erythroid differentiation regulator-1 induced by microbiota in early life drives intestinal stem cell proliferation and regeneration

The Role of Canonical Wnt Signaling in Regulating Radioresistance

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