RECK modulates Notch signaling during cortical neurogenesis by regulating ADAM10 activity

Muraguchi, Teruyuki; Takegami, Yujiro; Ohtsuka, Toshiyuki; Kitajima, Shunsuke; Chandana, E. P. S.; Omura, Akira; Miki, Takao; Takahashi, Rei; Matsumoto, Naoya; Ludwig, Andreas; Noda, Makoto; Takahashi, Chiaki

doi:10.1038/nn1922

Cited by 136 publications

(175 citation statements)

References 49 publications

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“…Notably, similar defects characterize also the cortex of embryos deficient in RECK (reversion-inducing cysteine-rich protein with Kazal motifs), a membrane protein localized to cortical precursor cells, which is thought to inhibit ADAM10 sheddase activity but with Notch ligands as substrates 40 .…”

Section: Discussionmentioning

confidence: 98%

SFRPs act as negative modulators of ADAM10 to regulate retinal neurogenesis

et al. 2011

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It is well established that embryonic mouse retinal neurogenesis requiresNotch and Wnt signaling are also required for the development of vertebrate neural retina.This structure develops from a neuroepithelium composed of multipotent progenitors, which undergo a series of competence states to give rise to six neuronal and one glial cell types 2 . As progenitor cells produce the various cell types, Notch through lateral inhibition, maintains neighboring cells in a multipotent, proliferative state, ensuring that sufficient numbers of progenitors are retained for consecutive waves of neurogenesis. Thus, downregulation of Notch is a prerequisite for retinal neuronal differentiation 2 .Wnt/βcatenin signaling has also been implicated in the proliferation of vertebrate retinal precursors. However, in the mouse embryonic neural retina this function is limited to progenitor cells located in the periphery 3, 4 . In contrast, Wnt/βcatenin signaling is not active in the central retina and cell proliferation and differentiation proceed normally in mice with conditional deletion of βcatenin in the neural retina, although retinal lamination is altered 5 .Similarly, retinal specific inactivation of Fzd5, a non-canonical Wnt receptor mostly impacts on retinal vasculature formation but has no effect on neurogenesis 6 By analyzing the functional consequences of Sfrp1 and Sfrp2 compound inactivation during mouse retinal neurogenesis, we demonstrate here a novel and Wnt-independent role of Sfrps in the regulation of Notch signaling. We explain this finding by demonstrating that Sfrps can bind and downregulate the activity of ADAM10, a metalloprotease with multiple substrates including Notch, N-cadherin and APP. 4 RESULTS Sfrp1 and Sfrp2 are essential for proper eye developmentSfrp1 and Sfrp2 are expressed during murine eye development with a complementary pattern that includes all eye structures 7 . Sfrp1 transcripts are localized to the optic cup periphery and the retina pigmented epithelium from E10.5, while Sfrp2 is predominant in the neural retina (Fig. S1). Despite restricted mRNA expression, Sfrp proteins efficiently diffuse in the extracellular space 17 and Sfrp1 was immunodetected, albeit at low levels, also in the neural retina (Fig. S1), supporting the proposed Sfrp functional redundancy 9, 11, 12 .Accordingly, the eye of Sfrp1 and Sfrp2 single null embryos appeared histologically normal.In contrast at E16.5, the latest viable stage, the eyes of Sfrp1 -/-;Sfrp2 -/-compound mutants (n=20) were smaller than those of control littermates (n=30) with morphological visible alterations, including dorsal peripheral defects, reduction of the lens size, abnormal cornea and eye lid formation, increased thickness of the neural retina and abnormal vitreal accumulation of mesenchyme-derived angioblasts that normally form the hyaloid artery, the major vascular structure of the embryonic eye (Fig. S2). Inactivation of Sfrp1/2 alters retinal neurogenesisMultipotent progenitors in the neural retina generates neuronal and one glial cells wi...

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Section: Discussionmentioning

confidence: 98%

SFRPs act as negative modulators of ADAM10 to regulate retinal neurogenesis

et al. 2011

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“…Recent papers also point to a link between EMT and cancer stem cells (Mani et al, 2008;Hill et al, 2009;Polyak and Weinberg, 2009). Reck has been implicated in angiogenesis (Oh et al, 2001), directional cell migration (Morioka et al, 2009) and suppression of neuronal differentiation (Muraguchi et al, 2007). Thus, the roles of RECK in hypoxia response, EMT and cancer stem cells are interesting subjects to be explored in future studies.…”

Section: Discussionmentioning

confidence: 99%

“…Forced expression of RECK in cancer cells results in reduced angiogenesis, invasion and metastasis in animal xenograft models (Takahashi et al, 1998;Oh et al, 2001). Mice lacking a functional Reck gene die around embryonic day 10.5 with reduced tissue integrity and defects in various organs, including blood vessels and the central nervous system (Oh et al, 2001;Muraguchi et al, 2007). Studies on RECK gene regulation may therefore yield important insights into the mechanisms of carcinogenesis as well as mammalian development.…”

Section: Introductionmentioning

confidence: 99%

Hypoxia and RAS-signaling pathways converge on, and cooperatively downregulate, the RECK tumor-suppressor protein through microRNAs

et al. 2010

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Cancer cells show characteristic gene expression profiles. Recent studies support the potential importance of micro-RNA (miRNA) expression signatures as biomarkers and therapeutic targets. The membrane-anchored protease regulator RECK is downregulated in many cancers, and forced expression of RECK in tumor cells results in decreased malignancy in animal models. RECK is also essential for mammalian development. In this study, we found that RECK is a target of at least three groups of miRNAs (miR-15b/16, miR-21 and miR-372/373); that RECK mutants lacking the target sites for these miRNA show augmented tumor/metastasis-suppressor activities; and that miR-372/373 are upregulated in response to hypoxia through HIF1a and TWIST1, whereas miR-21 is upregulated by RAS/ERK signaling. These data indicate that the hypoxia-and RAS-signaling pathways converge on RECK through miRNAs, cooperatively downregulating this tumor suppressor and thereby promoting malignant cell behavior.

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“…RECK was first isolated as a transformation-suppressor gene by cDNA expression cloning (Noda et al, 1989;Takahashi et al, 1998) and found to encode a membraneanchored regulator of several extracellular metalloproteinases, including MMP2, MMP7, MMP9, MT1-MMP, ADAM10 and CD13 (Takahashi et al, 1998;Oh et al, 2001;Miki et al, 2007;Muraguchi et al, 2007;Omura et al, 2009). These proteases have been implicated in tissue remodeling and cleavage of various extracellular molecules under normal and pathological conditions (Sternlicht and Werb, 2001).…”

Section: Introductionmentioning

confidence: 99%

“…Reck-deficient mice die around embryonic day 10.5 with reduced tissue integrity (accompanied by dramatic reduction in collagen fibrils), arrested vascular development and precocious neuronal differentiation (Oh et al, 2001;Muraguchi et al, 2007;Chandana et al, 2010). Embryo fibroblasts derived from these mice show unstable focal adhesions, increased speed of migration and reduced directional persistence during migration, and the phenotype can be partially suppressed on fibronectin-coated dishes .…”

Section: Introductionmentioning

confidence: 99%

Involvement of the SKP2–p27KIP1 pathway in suppression of cancer cell proliferation by RECK

et al. 2011

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The membrane-anchored matrix metalloproteinase-regulator RECK is often downregulated in cancers; in some cases, a significant correlation between the level of residual RECK in resected tumors and patient survival has been noted. Furthermore, restoration of RECK expression in certain cancer-derived cell lines results in reduced tumorigenicity. Here we report that acute RECK expression in colon carcinoma cells results in cell cyclearrest accompanied by downregulation of a ubiquitin ligase component, S-phase kinase-associated protein 2 (SKP2), and upregulation of its substrate, p27 KIP1 . Our data indicate that RECK-induced growth suppression is at least partially dependent on p27, and that RECK and type I collagen share similar effects on the SKP2-p27 pathway. Importantly, in patients with lung, colorectal and bladder cancers, the RECK/SKP2 ratio is high in normal tissues and lower in the cancer tissues. These findings reveal a novel molecular pathway linking cellcycle progression to RECK downregulation, extracellular matrix degradation and SKP2 upregulation, and suggest that treatment regimens that induce RECK expression could be promising cancer therapies.

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RECK modulates Notch signaling during cortical neurogenesis by regulating ADAM10 activity

Cited by 136 publications

References 49 publications

SFRPs act as negative modulators of ADAM10 to regulate retinal neurogenesis

SFRPs act as negative modulators of ADAM10 to regulate retinal neurogenesis

Hypoxia and RAS-signaling pathways converge on, and cooperatively downregulate, the RECK tumor-suppressor protein through microRNAs

Involvement of the SKP2–p27KIP1 pathway in suppression of cancer cell proliferation by RECK

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