Improvement in pulmonary hypertension and hypoxemia during nitric oxide inhalation in a patient with end-stage pulmonary fibrosis.

MicroRNA-mediated post-transcriptional regulation plays key roles in stem cell self-renewal and tumorigenesis. However, the in vivo functions of specific microRNAs in controlling mammary stem cell (MaSC) activity and breast cancer formation remain poorly understood. Here we show that miR-31 is highly expressed in MaSC-enriched mammary basal cell population and in mammary tumors, and is regulated by NF-κB signaling. We demonstrate that miR-31 promotes mammary epithelial proliferation and MaSC expansion at the expense of differentiation in vivo. Loss of miR-31 compromises mammary tumor growth, reduces the number of cancer stem cells, as well as decreases tumor-initiating ability and metastasis to the lung, supporting its pro-oncogenic function. MiR-31 modulates multiple signaling pathways, including Prlr/Stat5, TGFβ and Wnt/β-catenin. Particularly, it activates Wnt/β-catenin signaling by directly targeting Wnt antagonists, including Dkk1. Importantly, Dkk1 overexpression partially rescues miR31-induced mammary defects. Together, these findings identify miR-31 as the key regulator of MaSC activity and breast tumorigenesis.

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Stress responsive miR-31 is a major modulator of mouse intestinal stem cells during regeneration and tumorigenesis

Tian

et al. 2017

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Intestinal regeneration and tumorigenesis are believed to be driven by intestinal stem cells (ISCs). Elucidating mechanisms underlying ISC activation during regeneration and tumorigenesis can help uncover the underlying principles of intestinal homeostasis and disease including colorectal cancer. Here we show that miR-31 drives ISC proliferation, and protects ISCs against apoptosis, both during homeostasis and regeneration in response to ionizing radiation injury. Furthermore, miR-31 has oncogenic properties, promoting intestinal tumorigenesis. Mechanistically, miR-31 acts to balance input from Wnt, BMP, TGFβ signals to coordinate control of intestinal homeostasis, regeneration and tumorigenesis. We further find that miR-31 is regulated by the STAT3 signaling pathway in response to radiation injury. These findings identify miR-31 as a critical modulator of ISC biology, and a potential therapeutic target for a broad range of intestinal regenerative disorders and cancers.

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Numb and Numbl act to determine mammary myoepithelial cell fate, maintain epithelial identity, and support lactogenesis

Zhang

Song

et al. 2016

FASEB j.

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Mammary epithelium is comprised of an inner layer of luminal epithelial cells and an outer layer of contractile myoepithelial cells with mesenchymal properties. These two compartments interact throughout mammary morphogenesis to form branching ducts during puberty and terminate in secretory alveoli during lactation. It is not known how the myoepithelial cell lineage is specified, nor how signals in myoepithelial cells contribute to lactogenesis. Here, we show that Numb and Numbl are enriched in mammary myoepithelial cells, with their expression peaking during pregnancy. We use conditional Numb-and Numbl-knockout mouse models to demonstrate that loss of Numb/ Numbl compromised the myoepithelial layer and expanded the luminal layer, led epithelial cells to undergo epithelialto-mesenchymal transition, and resulted in lactation failure as a result of abnormal alveolar formation during pregnancy. Numb and Numbl function via repression of the Notch signaling pathway and of the p53-p21 axis during mammary gland development. These findings highlight the importance of Numb and Numbl in the control of myoepithelial cell fate determination, epithelial identity, and

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Cycling Stem Cells Are Radioresistant and Regenerate the Intestine

Sheng

Lin

et al. 2020

Cell Reports

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Secreted stromal protein ISLR promotes intestinal regeneration by suppressing epithelial Hippo signaling

Tang

Sheng

et al. 2020

The EMBO Journal

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The Hippo–YAP signaling pathway plays an essential role in epithelial cells during intestinal regeneration and tumorigenesis. However, the molecular mechanism linking stromal signals to YAP‐mediated intestinal regeneration and tumorigenesis is poorly defined. Here, we report a stroma–epithelium ISLR–YAP signaling axis essential for stromal cells to modulate epithelial cell growth during intestinal regeneration and tumorigenesis. Specifically, upon inflammation and in cancer, an oncogenic transcription factor ETS1 in stromal cells induces expression of a secreted protein ISLR that can inhibit Hippo signaling and activate YAP in epithelial cells. Deletion of Islr in stromal cells in mice markedly impaired intestinal regeneration and suppressed tumorigenesis in the colon. Moreover, the expression of stromal cell‐specific ISLR and ETS1 significantly increased in inflamed mucosa of human IBD patients and in human colorectal adenocarcinoma, accounting for the epithelial YAP hyperactivation. Collectively, our findings provide new insights into the signaling crosstalk between stroma and epithelium during tissue regeneration and tumorigenesis.

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Arachidonic Acid Promotes Intestinal Regeneration by Activating WNT Signaling

et al. 2020

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Summary Intestinal regeneration is crucial for functional restoration after injury, and nutritional molecules can play an important role in this process. Here, we found that arachidonic acid (AA) serves as a direct proliferation promoter of intestinal epithelial cells that facilitates small intestinal regeneration in both three-dimensional cultured organoids and mouse models. As shown in the study, during post-irradiation regeneration, AA positively regulates intestinal epithelial cell proliferation by upregulating the expression of Ascl2 and activating WNT signaling, but negatively regulates intestinal epithelial cell differentiation. AA acts as a delicate regulator that efficiently facilitates epithelial tissue repair by activating radiation-resistant Msi1 + cells rather than Lgr5 + cells, which are extensively considered WNT-activated crypt base stem cells. Additionally, short-term AA treatment maintains optimal intestinal epithelial homeostasis under physiological conditions. As a result, AA treatment can be considered a potential therapy for irradiation injury repair and tissue regeneration.

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The Msi1-mTOR pathway drives the pathogenesis of mammary and extramammary Paget’s disease

et al. 2020

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Mammary and extramammary Paget’s Diseases (PD) are a malignant skin cancer characterized by the appearance of Paget cells. Although easily diagnosed, its pathogenesis remains unknown. Here, single-cell RNA-sequencing identified distinct cellular states, novel biomarkers, and signaling pathways — including mTOR, associated with extramammary PD. Interestingly, we identified MSI1 ectopic overexpression in basal epithelial cells of human PD skin, and show that Msi1 overexpression in the epidermal basal layer of mice phenocopies human PD at histopathological, single-cell and molecular levels. Using this mouse model, we identified novel biomarkers of Paget-like cells that translated to human Paget cells. Furthermore, single-cell trajectory, RNA velocity and lineage-tracing analyses revealed a putative keratinocyte-to-Paget-like cell conversion, supporting the in situ transformation theory of disease pathogenesis. Mechanistically, the Msi1-mTOR pathway drives keratinocyte-Paget-like cell conversion, and suppression of mTOR signaling with Rapamycin significantly rescued the Paget-like phenotype in Msi1-overexpressing transgenic mice. Topical Rapamycin treatment improved extramammary PD-associated symptoms in humans, suggesting mTOR inhibition as a novel therapeutic treatment in PD.

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Xiaole Sheng

MicroRNA-31 Reduces Inflammatory Signaling and Promotes Regeneration in Colon Epithelium, and Delivery of Mimics in Microspheres Reduces Colitis in Mice

MiR-31 promotes mammary stem cell expansion and breast tumorigenesis by suppressing Wnt signaling antagonists

Stress responsive miR-31 is a major modulator of mouse intestinal stem cells during regeneration and tumorigenesis

Numb and Numbl act to determine mammary myoepithelial cell fate, maintain epithelial identity, and support lactogenesis

Cycling Stem Cells Are Radioresistant and Regenerate the Intestine

Secreted stromal protein ISLR promotes intestinal regeneration by suppressing epithelial Hippo signaling

Arachidonic Acid Promotes Intestinal Regeneration by Activating WNT Signaling

The Msi1-mTOR pathway drives the pathogenesis of mammary and extramammary Paget’s disease

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