Masataka Asagiri scite author profile

The type-I interferon (IFN-alpha/beta) response is critical to immunity against viruses and can be triggered in many cell types by cytosolic detection of viral infection, or in differentiated plasmacytoid dendritic cells by the Toll-like receptor 9 (TLR9) subfamily, which generates signals via the adaptor MyD88 to elicit robust IFN induction. Using mice deficient in the Irf7 gene (Irf7-/- mice), we show that the transcription factor IRF-7 is essential for the induction of IFN-alpha/beta genes via the virus-activated, MyD88-independent pathway and the TLR-activated, MyD88-dependent pathway. Viral induction of MyD88-independent IFN-alpha/beta genes is severely impaired in Irf7-/- fibroblasts. Consistently, Irf7-/- mice are more vulnerable than Myd88-/- mice to viral infection, and this correlates with a marked decrease in serum IFN levels, indicating the importance of the IRF-7-dependent induction of systemic IFN responses for innate antiviral immunity. Furthermore, robust induction of IFN production by activation of the TLR9 subfamily in plasmacytoid dendritic cells is entirely dependent on IRF-7, and this MyD88-IRF-7 pathway governs the induction of CD8+ T-cell responses. Thus, all elements of IFN responses, whether the systemic production of IFN in innate immunity or the local action of IFN from plasmacytoid dendritic cells in adaptive immunity, are under the control of IRF-7.

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Distinct and Essential Roles of Transcription Factors IRF-3 and IRF-7 in Response to Viruses for IFN-α/β Gene Induction

Sato

et al. 2000

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Induction of the interferon (IFN)-alpha/beta gene transcription in virus-infected cells is an event central to innate immunity. Mice lacking the transcription factor IRF-3 are more vulnerable to virus infection. In embryonic fibroblasts, virus-induced IFN-alpha/beta gene expression levels are reduced and the spectrum of the IFN-alpha mRNA subspecies altered. Furthermore, cells additionally defective in IRF-7 expression totally fail to induce these genes in response to infections by any of the virus types tested. In these cells, a normal profile of IFN-alpha/beta mRNA induction can be achieved by coexpressing both IRF-3 and IRF-7. These results demonstrate the essential and distinct roles of thetwo factors, which together ensure the transcriptional efficiency and diversity of IFN-alpha/beta genes for the antiviral response.

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The molecular understanding of osteoclast differentiation

Asagiri

Takayanagi

2007

Bone

1,173

1,057

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Autoamplification of NFATc1 expression determines its essential role in bone homeostasis

et al. 2005

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NFATc1 and NFATc2 are functionally redundant in the immune system, but it was suggested that NFATc1 is required exclusively for differentiation of osteoclasts in the skeletal system. Here we provide genetic evidence that NFATc1 is essential for osteoclast differentiation in vivo by adoptive transfer of NFATc1 −/− hematopoietic stem cells to osteoclast-deficient Fos −/− mice, and by Fos −/− blastocyst complementation, thus avoiding the embryonic lethality of NFATc1 −/− mice. However, in vitro osteoclastogenesis in NFATc1-deficient cells was rescued by ectopic expression of NFATc2. The discrepancy between the in vivo essential role of NFATc1 and the in vitro effect of NFATc2 was attributed to selective autoregulation of the NFATc1 gene by NFAT through its promoter region. This suggested that an epigenetic mechanism contributes to the essential function of NFATc1 in cell lineage commitment. Thus, this study establishes that NFATc1 represents a potential therapeutic target for bone disease and reveals a mechanism that underlies the essential role of NFATc1 in bone homeostasis.

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Differential activation and antagonistic function of HIF-α isoforms in macrophages are essential for NO homeostasis

et al. 2010

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Hypoxic response and inflammation both involve the action of the hypoxia-inducible transcription factors HIF-1a and HIF-2a. Previous studies have revealed that both HIF-a proteins are in a number of aspects similarly regulated post-translationally. However, the functional interrelationship of these two isoforms remains largely unclear. The polarization of macrophages controls functionally divergent processes; one of these is nitric oxide (NO) production, which in turn is controlled in part by HIF factors. We show here that the HIF-a isoforms can be differentially activated: HIF-1a is induced by Th1 cytokines in M1 macrophage polarization, whereas HIF-2a is induced by Th2 cytokines during an M2 response. This differential response was most evident in polarized macrophages through HIF-a isoform-specific regulation of the inducible NO synthase gene by HIF-1a, and the arginase1 gene by HIF-2a. In silico modeling predicted that regulation of overall NO availability is due to differential regulation of HIF-1a versus HIF-2a, acting to, respectively, either increase or suppress NO synthesis. An in vivo model of endotoxin challenge confirmed this; thus, these studies reveal that the two homologous transcription factors, HIF-1a and HIF-2a, can have physiologically antagonistic functions, but that their antiphase regulation allows them to coordinately regulate NO production in a cytokine-induced and transcription-dependent fashion.

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Positive feedback regulation of type I IFN genes by the IFN‐inducible transcription factor IRF‐7

et al. 1998

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The interferon regulatory factor (IRF) family of transcription factors regulate the interferon (IFN) system, among which IRF-3 is involved in the virus-induced IFN-L L gene expression. Here we show that another member IRF-7 is critical for the IFN-K K gene induction. Unlike the IRF-3 gene, the IRF-7 gene is induced by IFNs through activation of the ISGF3 transcription factor, and IRF-7 undergoes virus-induced nuclear translocation. In cells lacking p48, an essential component of IFN stimulated gene factor 3 (ISGF3), ectopic expression of IRF-7 but not IRF-3 can rescue the deficiency to induce IFN-K K genes. These results indicate that IRF-7 is a key factor in the positive feedback regulation of IFN-K K/L L production.z 1998 Federation of European Biochemical Societies.

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Origin of myofibroblasts in the fibrotic liver in mice

Iwaisako

Jiang

Zhang³

et al. 2014

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

432

445

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Significance Liver resident activated hepatic stellate cells (aHSCs), and activated portal fibroblasts (aPFs) are the major source of the fibrous scar in the liver. aPFs have been implicated in liver fibrosis caused by cholestatic liver injury, whereas fibrosis in hepatotoxic liver injury is attributed to aHSCs. However, the contribution of aPFs to cholestatic fibrosis is not well characterized because of difficulties in cell purification and the lack of identified aPF-specific markers. We have developed a novel flow cytometry-based method of aPFs purification from the nonparenchymal cell fraction of collagen-α1(I)-GFP mice and have identified potential aPF-specific markers. The goal of this study is to determine whether aPFs contribute to cholestatic liver fibrosis and identify the mechanism(s) of their activation.

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NFAT and Osterix cooperatively regulate bone formation

Koga

Matsui

Asagiri

et al. 2005

Nat Med

444

351

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Immunosuppressants are crucial in the prevention of detrimental immune reactions associated with allogenic organ transplantation, but they often cause adverse effects in a number of biological systems, including the skeletal system. Calcineurin inhibitors FK506 and cyclosporin A inhibit nuclear factor of activated T cells (NFAT) activity and induce strong immunosuppression. Among NFAT proteins, NFATc1 is crucial for the differentiation of bone-resorbing osteoclasts. Here we show FK506 administration induces the reduction of bone mass despite a blockade of osteoclast differentiation. This reduction is caused by severe impairment of bone formation, suggesting that NFAT transcription factors also have an important role in the transcriptional program of osteoblasts. In fact, bone formation is inhibited in Nfatc1- and Nfatc2-deficient cells as well as in FK506-treated osteoblasts. Overexpression of NFATc1 stimulates Osterix-dependent activation of the Col1a1 (encoding type I collagen) promoter, but not Runx2-dependent activation of the Bglap1 (encoding osteocalcin) promoter. NFAT and Osterix form a complex that binds to DNA, and this interaction is important for the transcriptional activity of Osterix. Thus, NFAT and Osterix cooperatively control osteoblastic bone formation. These results may provide important insight into the management of post-transplantation osteoporosis as well as a new strategy for promoting bone regeneration in osteopenic disease.

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