Genevieve Kerr scite author profile

The proliferation of intestinal stem cells is maintained by EGF, a key component of the medium required to support organoids ex vivo. Here, we identified that NRG1, not EGF, is up-regulated during tissue repair following injury. NRG1 is expressed in mesenchymal stromal cells, macrophages and Paneth cells. Knockout of NRG1 produced a decrease in cell proliferation within crypts and a reduced capacity to regenerate following injury. Treatment with NRG1 robustly stimulated proliferation in crypts and budding of organoids. Molecular characterisation of the effects of NRG1 revealed an elevated and sustained activation of MAPK and AKT and a proliferative signature. NRG1 also had a strong impact on the expression of stem cell markers, the ability of progenitor cells to initiate organoid growth and enhanced regeneration. Our data suggest mesenchymal-derived NRG1 is a potent mediator of tissue regeneration and may inform the development of NRG1-based therapies for enhancing intestinal repair after injury.

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Clostridioides difficile infection damages colonic stem cells via TcdB, impairing epithelial repair and recovery from disease

Mileto

Jardé

Childress

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Gastrointestinal infections often induce epithelial damage that must be repaired for optimal gut function. While intestinal stem cells are critical for this regeneration process [R. C. van der Wath, B. S. Gardiner, A. W. Burgess, D. W. Smith,PLoS One8, e73204 (2013); S. Kozaret al.,Cell Stem Cell13, 626–633 (2013)], how they are impacted by enteric infections remains poorly defined. Here, we investigate infection-mediated damage to the colonic stem cell compartment and how this affects epithelial repair and recovery from infection. Using the pathogenClostridioides difficile,we show that infection disrupts murine intestinal cellular organization and integrity deep into the epithelium, to expose the otherwise protected stem cell compartment, in a TcdB-mediated process. Exposure and susceptibility of colonic stem cells to intoxication compromises their function during infection, which diminishes their ability to repair the injured epithelium, shown by altered stem cell signaling and a reduction in the growth of colonic organoids from stem cells isolated from infected mice. We also show, using both mouse and human colonic organoids, that TcdB from epidemic ribotype 027 strains does not require Frizzled 1/2/7 binding to elicit this dysfunctional stem cell state. This stem cell dysfunction induces a significant delay in recovery and repair of the intestinal epithelium of up to 2 wk post the infection peak. Our results uncover a mechanism by which an enteric pathogen subverts repair processes by targeting stem cells during infection and preventing epithelial regeneration, which prolongs epithelial barrier impairment and creates an environment in which disease recurrence is likely.

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INPP4B promotes PI3Kα-dependent late endosome formation and Wnt/β-catenin signaling in breast cancer

et al. 2021

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INPP4B suppresses PI3K/AKT signaling by converting PI(3,4)P2 to PI(3)P and INPP4B inactivation is common in triple-negative breast cancer. Paradoxically, INPP4B is also a reported oncogene in other cancers. How these opposing INPP4B roles relate to PI3K regulation is unclear. We report PIK3CA-mutant ER+ breast cancers exhibit increased INPP4B mRNA and protein expression and INPP4B increased the proliferation and tumor growth of PIK3CA-mutant ER+ breast cancer cells, despite suppression of AKT signaling. We used integrated proteomics, transcriptomics and imaging to demonstrate INPP4B localized to late endosomes via interaction with Rab7, which increased endosomal PI3Kα-dependent PI(3,4)P2 to PI(3)P conversion, late endosome/lysosome number and cargo trafficking, resulting in enhanced GSK3β lysosomal degradation and activation of Wnt/β-catenin signaling. Mechanistically, Wnt inhibition or depletion of the PI(3)P-effector, Hrs, reduced INPP4B-mediated cell proliferation and tumor growth. Therefore, INPP4B facilitates PI3Kα crosstalk with Wnt signaling in ER+ breast cancer via PI(3,4)P2 to PI(3)P conversion on late endosomes, suggesting these tumors may be targeted with combined PI3K and Wnt/β-catenin therapies.

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Genevieve Kerr

Mesenchymal Niche-Derived Neuregulin-1 Drives Intestinal Stem Cell Proliferation and Regeneration of Damaged Epithelium

Clostridioides difficile infection damages colonic stem cells via TcdB, impairing epithelial repair and recovery from disease

INPP4B promotes PI3Kα-dependent late endosome formation and Wnt/β-catenin signaling in breast cancer

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