Musashi-2 attenuates AHR signalling to expand human haematopoietic stem cells

Rentas, Stefan; Holzapfel, Nicholas; Belew, Muluken S.; Pratt, Gabriel A.; Voisin, Véronique; Wilhelm, Brian T.; Bader, Gary D.; Yeo, G; Hope, Kristin J.

doi:10.1038/nature17665

Cited by 111 publications

(130 citation statements)

References 38 publications

(53 reference statements)

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“…The above-mentioned conclusion is consistent with our earlier findings where expression of some AhR-dependent genes was compared between both, differentiated and undifferentiated, unmodified HepaRG cells [41]. The conclusion is consistent also with the findings of involvement of AhR in development of fetal mouse liver [42] or control of expansion of human hematopoietic stem cells in culture [66]. It was demonstrated that different cell types were involved in AhR-dependent development of mouse liver and in AhR-dependent hepatotoxicity [43].…”

Section: Discussionsupporting

confidence: 91%

“…Participation of the aryl hydrocarbon receptor in induction of expression of genes connected to regulation of apoptosis or involved in cell proliferation from one side, and in inhibition of genes connected to cell adhesion from the other side could explain some results suggesting involvement of AhR not only in initiation but also in progression of cancer [83]. In agreement with above, novel physiological function for AhR has been proposed recently, as regulator of self-renewal of hematopoietic stem cells [66] or in general, modulator of the balance between differentiation and pluripotentiality in normal and transformed tumor cells [84]. …”

Section: Discussionmentioning

confidence: 81%

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Induction of expression of aryl hydrocarbon receptor-dependent genes in human HepaRG cell line modified by shRNA and treated with β-naphthoflavone

et al. 2016

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The aryl hydrocarbon receptor (AhR) mediates a variety of biological responses to ubiquitous environmental pollutants. In this study, the effects of administration of β-naphthoflavone (BNF), a potent AhR ligand, on the expression of AhR-dependent genes were examined by microarray and qPCR analysis in both, differentiated and undifferentiated HepaRG cell lines. To prove that BNF-induced changes of investigated genes were indeed AhR-dependent, we knock down the expression of AhR by stable transfection of HepaRG cells with shRNA. Regardless of genetical identity, our results clearly demonstrate different expression profiles of AhR-dependent genes between differentiated and undifferentiated HepaRG cells. Genes involved in metabolism of xenobiotics constitute only minute fraction of all genes regulated by AhR in HepaRG cells. Participation of AhR in induction of expression of genes associated with regulation of apoptosis or involved in cell proliferation as well as AhR-dependent inhibition of genes connected to cell adhesion could support suggestion of involvement of AhR not only in initiation but also in progression of carcinogenesis. Among the AhR-dependent genes known to be involved in metabolism of xenobiotics, cytochromes P4501A1 and 1B1 belong to the most inducible by BNF. On the contrary, expression of GSTA1 and GSTA2 was significantly inhibited after BNF treatment of HepaRG cells. Among the AhR-dependent genes that are not involved in metabolism of xenobiotics SERPINB2, STC2, ARL4C, and TIPARP belong to the most inducible by BNF. Our results imply involvement of Ah receptor in regulation of CYP19A1, the gene-encoding aromatase, and an enzyme responsible for a key step in the biosynthesis of estrogens.Electronic supplementary materialThe online version of this article (doi:10.1007/s11010-016-2862-3) contains supplementary material, which is available to authorized users.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 81%

Induction of expression of aryl hydrocarbon receptor-dependent genes in human HepaRG cell line modified by shRNA and treated with β-naphthoflavone

et al. 2016

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“…MSI2 overexpression in a conditional murine system results in a transient increase in HSC numbers, and retroviral overexpression results in improved engraftment 16 . Consistent with its role in mouse HSCs, forced expression of MSI2 in human cord blood cells resulted in a 23-fold ex vivo expansion of long-term repopulating activity and a 17-fold increase in short-term repopulating activity 18 . Loss of Msi2 expression in a murine germline gene trap mutant has opposing effects; LSK (Lineage Low , Sca1 + , c-Kit + stem and progenitor) cells are reduced resulting in poor engraftment and a defect in lymphoid primed multipotent progenitor cell (LMPP) activity due to decreased cycling 17 .…”

Section: Msi Family and Hematopoietic Stem And Progenitor Cellsmentioning

confidence: 63%

Stem Cells, Cancer, and MUSASHI in Blood and Guts

Kharas

Lengner

2017

Trends in Cancer

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The mammalian MSI family of RNA binding proteins play important roles as oncoproteins in a wide array of tumors including leukemias, glioblastoma, and pancreatic, breast, lung, and colorectal cancers,. Interestingly, the mammalian Msi genes, Msi1 and Msi2 have been most thoroughly investigated in two highly proliferative tissues prone to oncogenic transformation: the hematopoietic lineage and the intestinal epithelium. Despite their vast phenotypic differences, Msi proteins appear to play an analogous role in governing the stem cell compartment in both of these tissues, potentially providing a paradigm for a more broad understanding of Msi function and its oncogenic activities. In this review we focus on MSI function in the blood and the intestine and discuss therapeutic strategies for targeting this pathway.

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“…Msi2 is better known for its role in regulating translation, and our analysis now adds another possible mechanism by which it may influence HSCs. Interestingly, overexpression of human MSI2 was reported to expand HSCs via attenuation of the aryl hydrocarbon receptor pathway as an RNA-binding protein (Rentas et al., 2016). MSI2 also plays a role in malignancy, thus understanding the possible relevance of splicing and RNA regulation in normal stem cells may reveal another layer of regulation (and mis-regulation) in cancer and in cancer stem cells (Barbouti et al., 2003, de Andres-Aguayo et al., 2011, Kharas et al., 2010).…”

Section: Discussionmentioning

confidence: 99%

Mapping Whole-Transcriptome Splicing in Mouse Hematopoietic Stem Cells

et al. 2017

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SummaryHematopoietic stem cells (HSCs) are rare cells that generate all the various types of blood and immune cells. High-quality transcriptome data have enabled the identification of significant genes for HSCs. However, most genes are expressed in various forms by alternative splicing (AS), extending transcriptome complexity. Here, we delineate AS to determine which isoforms are expressed in mouse HSCs. Our analysis of microarray and RNA-sequencing data includes differential expression of splicing factors that may regulate AS, and a complete map of splicing isoforms. Multiple types of isoforms for known HSC genes and unannotated splicing that may alter gene function are presented. Transcriptome-wide identification of genes and their respective isoforms in mouse HSCs will open another dimension for adult stem cells.

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Musashi-2 attenuates AHR signalling to expand human haematopoietic stem cells

Cited by 111 publications

References 38 publications

Induction of expression of aryl hydrocarbon receptor-dependent genes in human HepaRG cell line modified by shRNA and treated with β-naphthoflavone

Induction of expression of aryl hydrocarbon receptor-dependent genes in human HepaRG cell line modified by shRNA and treated with β-naphthoflavone

Stem Cells, Cancer, and MUSASHI in Blood and Guts

Mapping Whole-Transcriptome Splicing in Mouse Hematopoietic Stem Cells

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